Print processing apparatus, print processing method, system control method, program, and storage medium

ABSTRACT

A CPU of an image forming apparatus, such as a color electrophotographic copying apparatus, reads print step information from a memory, such as a USB memory, that stores print image data and print step information relating to a plurality of print steps for producing a print of the print image data and a progress state of the print steps. The CPU updates the progress state of the print steps stored in the memory subsequent to the print step being performed by a printer in the image forming apparatus, displays a next print step to perform based on the read print step information, and controls the printer. The image forming apparatus thus avoids leaks of the print data, and prevents useless printing and erratic job processing. Thus, even an inexperienced operator can provide sophisticated high quality print service using the image forming apparatus.

CROSS REFERENCE TO RELATED APPLICATIONS

This application claims the benefit of Japanese Application 2003-337522,filed Sep. 29, 2003, and Japanese Application 2004-223300, filed Jul.30, 2004, the entire contents of which are incorporated herein byreferences.

BACKGROUND OF THE INVENTION

1. Field of the Invention

The present invention relates to a print processing apparatus, a printprocessing method, a system, a control method, a program, and a storagemedium for use in an on-demand printing system for printing an ordereddocument requiring high confidentiality.

2. Description of the Related Art

It is expected today that operators in a printing business receive printdata from a client in a removable medium, such as a magneto-opticaldisk.

For example, Japanese Patent Laid-Open No. 2001-134515 discloses atechnique of providing a pay service of recording information, such asinformation supplied in a portable type storage medium, includingproviding a printout of the information and storage of the informationonto a storage medium.

Along with widespread use of broadband network, receiving data online isalso studied.

USB (universal serial bus) flash memories have become more widelyaccepted as a convenient device for transferring data.

Since personal computers (PCs) are currently supplied with an OS(operating system) and a USB interface (I/F) as standard, the PC readsinformation from and writes information to the USB flash memory withoutthe need for installing a particular driver software. The USB flashmemory is thus a very convenient and compact removable medium.

The USB flash memory is increasing the capacity thereof to 128 MB to 256MB, and access control technique using a password is also studied.

When a document requiring a high degree of confidentiality, such as anoperator's manual or catalogs for a new and unpublished product, isprinted, the print data must be controlled so that it is not leaked, andthe printouts must be handled with care.

In order to maintain this high degree of confidentiality, printerstypically isolate the print confidential order sheet from general printorder sheets, and a skilled operator processes the confidentialdocument.

Heretofore, a control process has not been available under which even anoperator at a low skill level can manage a plurality of print stepswhich are different depending on the request of a client, in an errorfree manner to print a document requiring confidentiality in accordancewith an order sheet, while maintaining confidentiality. Even if asimilar technique is available, a system or apparatus that fullysatisfies a variety of needs, assures the ease of use, and permitssmooth management is not available.

SUMMARY OF THE INVENTION

A print processing apparatus, a print processing method, a system, acontrol method, a program, and a storage medium free from the previouslydiscussed drawbacks are disclosed.

The present invention provides a print processing apparatus, a printprocessing method, a system, a control method, a program, and a storagemedium for constructing a system that satisfies a variety of needs,assures the ease of use, and permits smooth management. The presentinvention permits an operator at a low skill level to reliably perform aprinting process in an error free manner.

The present invention permits an operator at a low skill level toperform a printing process with confidentiality of protected print imagedata.

The present invention permits an operator at a low skill level toprovide sophisticated high-quality printing service free from print dataleak, useless printing, and erratic operation.

The present invention allows for designating the type and model of anapparatus performing the printing process on a per order sheet basis ina manner such that a print having a high finished accuracy andconsistency in color in color printing is provided.

According to an aspect of the present invention, a print processingapparatus, having a print step processing unit for performing at leastone print step of producing a print, includes: a storage unit forstoring print image data, print step information relating to a pluralityof print steps for producing the print of the print image data, and aprogress state of the print steps; a read unit for reading the printstep information stored in the storage unit; an updating unit forupdating the progress state of the print steps stored in the storageunit subsequent to the processing of the print step performed by theprint step processing unit; and a display for displaying a next printstep based on the print step information that is read from the storageunit by the read unit.

According to another aspect of the present invention, a print processingapparatus including a print step processor for performing at least oneprint step of producing a print comprises: a storage unit for storingdata comprising print image data, print step information relating to aplurality of print steps for producing the print of the print imagedata, and a progress state of the print steps; a reader for reading theprint step information stored in the storage unit; an update unit forupdating the progress state of the print steps stored in the storageunit subsequent to the processing of the print step performed by theprint step processor; and a controller for controlling operation of theprint step processor based on the print step information read from thestorage unit by the reader.

Further features and advantages of the present invention will becomeapparent from the following description of the preferred embodimentswith reference to the attached drawings.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is a block diagram of an image forming system (on-demand printingsystem) incorporating an information processing apparatus, an imageforming apparatus, and a post-processing apparatus in accordance with afirst embodiment of the present invention.

FIG. 2 illustrates a workflow of printing process of the on-demandprinting system in accordance with the first embodiment of the presentinvention.

FIG. 3 is a perspective view of a USB memory for use with the imageforming apparatus of the first embodiment of the present invention.

FIG. 4 is a perspective view of a USB memory read unit mounted in ahigh-speed electrophotographic color copying apparatus that performs aprinting operation in accordance with the first embodiment of thepresent invention.

FIG. 5 is a block diagram illustrating the structure of a PC (personalcomputer) of FIG. 1.

FIG. 6 is a block diagram of the electrical structure of theelectrophotographic copying apparatus that performs a printing operationin accordance with the first embodiment of the present invention.

FIG. 7 is a table listing process step IDs for identifying process stepsin accordance with the first embodiment of the present invention.

FIGS. 8-11 illustrate the memory map of a USB memory for use in thefirst embodiment of the present invention.

FIG. 12 is a diagram illustrating a job process of the process stepsstored in the USB memory illustrated in FIGS. 8-11.

FIG. 13 is a flowchart illustrating a first control process of theprinting system of the first embodiment of the present invention.

FIGS. 14-15 are diagrams illustrating notes in error processes of FIG.13.

FIG. 16 is a diagram illustrating an example of display in the processof FIG. 13.

FIG. 17 is a block diagram illustrating a system incorporating a printprocessing apparatus, such as an information processing apparatus, animage forming apparatus, or a post-process apparatus in accordance witha second embodiment of the present invention.

FIG. 18 is a flowchart of a second control process of the printingsystem of the second embodiment of the present invention.

FIG. 19 is a block diagram illustrating a system incorporating a printprocessing apparatus, such as an information processing apparatus, animage forming apparatus, or a post-process apparatus in accordance witha third embodiment of the present invention.

FIG. 20 illustrates a memory map of a storage medium storing a varietyof data processing programs read by the printing system of theembodiments of the present invention.

DESCRIPTION OF THE EMBODIMENTS First Embodiment

FIG. 1 is a block diagram of an image forming system (on-demand printingsystem) incorporating an information processing apparatus, an imageforming apparatus, and a post-processing apparatus in accordance with afirst embodiment of the present invention.

As shown, a personal computer (PC) 1 communicates with a color laserbeam printer (color LBP) 2 and a scanner 3 via a network 10.

The PC 1 performs a preflight process before an image forming apparatus,such as a printer, outputs a printout. In the preflight process, the PC1 displays a preview of data to be processed on the screen thereof toallow an operator of the PC 1 to check print image data as print data.The PC 1 performs a proofing process to allow the operator to verifyprintout results. In the proofing process, the PC 1 causes a printer toprint out data to check to see if the print data is printed as intendedby the operator. In the proofing process, the PC 1 performs a rasterizeprocess on the print data that is subjected to pre-print process(including the preflight and original document editing process), andthen causes the color LBP 2 to print out the data (printing process).The PC 1 also performs a page sequencing process which assigns the printdata to each page taking into consideration the size of a sheet in use,the final printout size, and a method of book binding.

The PC 1 also reads an original document received as a paper documentusing the scanner 3 to obtain electronic data (the data of the originaldocument scanned by the scanner 3 is converted into PDF data), andperforms an editing process on the print data input and/or print datathat is read by the scanner 3 from the original paper document input.

The PC 1 also instructs a predetermined user to deliver a finisheddocument and to return a USB memory 201 (FIG. 3), and manages a deliveryslip of a delivered product and shipment history.

An electrophotographic color copying apparatus (also referred to as acolor image forming apparatus) 20 performs a printing process based onthe print data.

The above-described functions of the PC 1 may be performed by a systemof a plurality of information processing apparatuses or a single PC 1alone.

Each of the PC 1, the electrophotographic color copying apparatus 20, acutter 21, a book binder 22, a folder 23, a packager 24, and a collator25 has a USB interface and is connected to a USB memory 201, shown inFIG. 3, via the USB interface.

The cutter (also referred to as a trimmer device) 21 cuts set sheets.For example, the cutter 21 performs a cutting process on recordingsheets printed by the image forming apparatus (printer) in the system,in response to a command input through various operation units (userinterface units) by an operator. The book binder (also referred to as afinisher device) 22 performs a book binding process on set sheets. Forexample, the book binder 22 performs a stapling process or a bookbinding process on the recording sheets printed by the image formingapparatus in the system, in response to a command input through variousoperation units (user interface units) by the operator. The folder (alsoreferred to as a saddle stitch device) 23 performs a folding process onset sheets. In response to a command input through various operationunits (user interface units) by the operator, the folder 23 performs thefolding process on the recording sheets printed by the image formingapparatus in the system. The packager 24 performs a packaging process onset sheets. In response to a command input through various operationunits (user interface units) by the operator, the packager 24 packages,into a predetermined package, the recording sheets that have undergone apredetermined sheet process (such as one of the stapling process, bookbinding process, punching process, cutting process, and folding process)of the previously discussed sheet processing devices (the cutter 21, thebook binder 22, and folder 23). The collator 25 performs a sortingprocess on set sheets. More specifically, the collator 25 performs asorting process, a collating process, and a mixing process on therecording sheets printed by the image forming apparatus in the system inresponse to a command from the operator so that the pages are properlyarranged. The color LBP 2 and the electrophotographic color copyingapparatus 20 are collectively referred to as a printer apparatus or animage forming apparatus. The cutter 21, the book binder 22, the folder23, the packager 24, and the collator 25 are collectively referred to asa sheet processing apparatus.

FIG. 1 illustrates the PC 1, the electrophotographic color copyingapparatus 20, the cutter 21, the book binder 22, the folder 23, thepackager 24, and the collator 25 as a print processing apparatus forperforming at least one print process step for producing a print (asshown in FIG. 7 later). The present invention is applicable to printprocessing apparatuses other than the apparatus described above.

The print step discussed herein is not limited to a print step processin which the image forming apparatus performs a print process. Forexample, a pre-process step of the image forming apparatus in which theprint data to be printed on the image forming apparatus is generated inthe PC 1 (document input process) is also contained as one of theprocess steps. The sheet processing devices 21-25 perform, on therecording sheets printed by the image forming apparatus, post-processsteps, such as a stapling step, a punching step, a binding step, afolding step, and a cutting step subsequent to the print process of theimage forming apparatus. Such post-process steps also fall within thecategory of the print steps. A plurality of print steps including theprint step performed by the image forming apparatus and other printsteps are respectively referred to as a print step.

As will be discussed later, each of a document input step 100—a bindingstep 107 of FIG. 2 is one of the print steps. Each of a document inputstep through a delivery step of FIGS. 9-11 is also one of the printsteps. A series of job steps containing a plurality of process steps isreferred to as a workflow.

The system of the first embodiment of the present invention performs aplurality of process steps using at least two devices of the pluralityof devices in the system (containing an information processing apparatussuch as the PC 1, a plurality of printer apparatuses such as the colorLBP 2 and the electrophotographic color copying apparatus 20, and aplurality of sheet processing apparatuses including the cutter 21, thebook binder 22, the folder 23, the packager 24, and the collator 25),thereby outputting a single final finished product.

In the following example, the system of the present invention produces afinal finished product in response to the request of a user (client)through a plurality of process steps of the plurality of devicesthereof. For example, the PC 1 performs an editing process on job datato be printed. Edited data is displayed for preflight check on themonitor of the PC 1 subsequent to the editing process. Subsequent to thepreflight check, the edited data is transmitted to the printer device 2through a communication medium such as the network 10. The printerdevice 2 performs a printing process on the edited data. Printedrecording sheets are then stapled by the book binder 22. The stapledrecording sheets are then put into a package by the packager 24. Aseries of process steps is now fully completed. As discussed above, aplurality of process steps (job steps) that are performed by a pluralityof devices to produce a final finished product in response to therequest from a client is referred to as a workflow. An operatorintervention may be required to transfer the sheets from one device toanother in the workflow. For example, to staple the recording sheets,printed by the LBP 2, on the book binder 22 (for shifting from the printstep to the stapling step), the operator manually conveys a bundle ofrecording sheets from the printer device 2 to the book binder 22, andsets the recording sheets on the book binder 22, and causes the bookbinder 22 to perform the stapling process. The workflow to perform aplurality of process steps with a plurality of devices may or may notrequire operator intervention. The system of the first embodiment of thepresent invention performs a variety of job steps with ease of use andunder a user friendly environment.

The electrophotographic color copying apparatus 20 and post-processingapparatuses (such as the cutter 21, the book binder 22, the folder 23,the packager 24, and the collator 25) are separate devices in theforegoing discussion. Alternatively, at least one post-processing devicemay be optionally attached to the electrophotographic color copyingapparatus 20, or the electrophotographic color copying apparatus 20 maybe provided with a cutting function, a book binding function, a foldingfunction, a packaging function, and a collate function. In this case, aUSB interface and control means may be shared.

FIG. 2 illustrates a workflow of print process of the on-demand printingsystem in accordance with the first embodiment of the present invention.

In a document input step 100, print data in a PDF format is receivedfrom a print client. For example, a controller such as a CPU of the PC 1controls a memory thereof to store the client data in the PDF format. Inthis example, the document input step 100 includes a process that thecontroller of the PC 1 causes the PC 1 to receive the print data.

In a preflight step 101, the operator checks, on a monitor of the PC 1,the data received from the client to the PC 1 in the document input step100. In the preflight process, the operator of the system checks theprint data on a preview screen of the PC 1 prior to print output to seeif there is any problem in the print data. Viewing the preview screen,the operator checks fonts in use, spot color, a mode of an image,overprint, etc., of the print data. If the operator finds any problem,the operator notifies the client, who has ordered the print in thesystem, of the problem, and modifies the print data if necessary. Thepreflight step 101 includes a process of the controller of the PC 1 ofcausing the monitor of the PC 1 to display the preview screen, and adata modification process that the operator modifies the print datausing a mouse and/or a keyboard after checking the print data preview onthe monitor of the PC 1.

In a proof step 102, a proof sheet is printed for proofing. The PC 1causes the color LBP 2 to print out the print data and the operatorchecks with the client about the color of the print data. The proof step102 includes a process of the controller of the LBP 2 to cause the LBP 2to perform a printing process of the print data transferred from the PC1 via the network 10, and a process of the operator of verifying thecolor of the printout.

In a page sequencing step 103, the PC 1 assigns the print data torespective pages taking into consideration the size of sheets, the sizeof the final prints, and the method of book binding. The page sequencingstep 103 includes a process of the controller of the PC 1 of causing adata processing unit of the PC 1 to perform a page sequencing layoutprocess on the print data in response to a command from the operator.

In a printing step 104, the electrophotographic color copying apparatus20 performs a printing process. Known print steps, such as plate making,press plate, offset printing, may also be used. The electrophotographiccolor copying apparatus 20 is a complex apparatus having a networkfunction, a copying function, and a printing function that permits theprint data received from the PC 1 to be printed. The page sequencingstep 103 includes a process in which the print data that has been pagesequenced by the PC 1 in the page sequencing step 103 is transferred tothe electrophotographic color copying apparatus 20 via the network 10,and in response, the electrophotographic color copying apparatus 20prints out the print data.

In a folding step 105, the folder 23 performs a folding process on thesheets printed by the electrophotographic color copying apparatus 20. Ifthe folder 23 is not connected to the electrophotographic color copyingapparatus 20, the operator manually conveys the recording sheets printedby the electrophotographic color copying apparatus 20 to the folder 23.The folding step 105 includes this operator intervention.

In a cutting step 106, the cutter 21 cuts the sheets folded by thefolder 23 to a desired size.

In a binding step 107, the book binder 22 binds the sheets, cut by thecutter 21, in accordance with a predetermined binding method.

The PC 1 performs all of steps (the document input step 100 through thebinding step 107) in the order described above, thereby outputting afinal finished product ordered by the client.

The system of the first embodiment of the present invention performs theworkflow of the plurality of print steps with the plurality of devices,including the operator intervention in order to produce the finalfinished product desired by the user (client).

In accordance with the first embodiment of the present invention,process management information is used to smoothly perform management,operation, and control of a plurality of process steps contained in theworkflow to produce a single final finished product (to complete asingle job). Any appropriate device in the system creates the processmanagement information used in the workflow. For example, the PC 1creates the process management information in response to printconditions input by the operator. The process management informationcreated by an appropriate device is written onto a portable memory (alsoreferred to as a removable medium), such as a USB memory. The removablemedium is controlled to store not only the process managementinformation but also the print data that is material data of the finalfinished product produced based on the process management information.It is perfectly acceptable that the removable medium stores one of orboth of the process management information and the print data. In thesystem of the first embodiment of the present invention, each of thedevices includes a read unit (a USB read unit 301 shown in FIG. 4 in thefirst embodiment) for performing a read process, a write process, and anupdate process on a variety of data (including the process managementinformation and the print data) stored in the removable medium. The USBread unit 301 performs at least one of the read process, the writeprocess, and the update process. The controller of one device reads theprocess management information from a USB memory loaded by the operatorinto the USB read unit 301 of a host device, and learns the processmanagement information. The controller controls the host device andperforms a reporting process to the operator based on the processmanagement information. The controller then overwrites or modifies theprocess management information in the USB memory in response to theoperational status of the host device. In the discussion of theembodiments of the present invention, the USB memory is used.

FIG. 3 is a perspective view of the USB memory 201 for use with theimage forming apparatus of the present invention.

As shown, the USB memory 201 having a flash memory 202 (e.g., of about128 MB) is used with a USB connector thereof received in a USB slot (USBinterface). In accordance with the first embodiment of the presentinvention, the USB memory 201 is used as a portable storage unitdetachably loaded into each of the devices of the system (including thePC 1, the color LBP 2, the scanner 3, the electrophotographic colorcopying apparatus 20, the cutter 21, the book binder 22, the folder 23,the packager 24, and the collator 25). The present invention is notlimited to the USB memory 201. Any storage unit is acceptable as long asthe storage unit stores the print data, and the process managementinformation required for a plurality of devices to perform the steps inthe workflow, update the data thereof, and allows each device to readthe data thereof.

An ordinary personal computer, such as Windows® PC or Macintosh® PC, isallowed to access to the USB memory 201 as a drive, and using adedicated utility software program, the computer sets a password tocontrol access to a predetermined area of the USB memory 201.

FIG. 4 is a perspective view of the USB memory 201 read unit mounted inthe high-speed electrophotographic color copying apparatus 20 thatperforms a printing operation in accordance with the first embodiment ofthe present invention.

As shown, a surface 303 is the right-hand side of theelectrophotographic color copying apparatus 20. The USB read unit 301 ismounted on the top right portion of an operation section of theelectrophotographic color copying apparatus 20. The USB read unit 301has a USB slot 302 that receives the USB memory 201 of FIG. 3.

In the system, the devices of FIG. 1 are individually installed.Although the devices are electrically connected to each other via acommunication medium, such as the network 10 (with the devices mutuallycommunicable to each other), the devices are not mechanically connectedto each other. It is not a requirement that all devices are electricallyconnected to each other. If the book binder 22 is integrated with theelectrophotographic color copying apparatus 20, the book binder 22 andthe electrophotographic color copying apparatus 20 are mechanicallyconnected. In the system configuration, some of the devices may beelectrically and mechanically integrated as a single device. A varietyof system configurations are contemplated. In exemplary embodiments,each device in the system has the USB read unit 301 thereof. Morespecifically, each of the PC 1, the cutter 21, the book binder 22, thefolder 23, the packager 24, and the collator 25 has the USB read unit301 thereof. For example, if two devices are electrically andmechanically integrated, one of the two devices is provided with the USBread unit 301.

FIG. 5 is a block diagram illustrating the structure of the PC 1 of FIG.1.

As shown, a central processing unit (CPU) 501 controls each of thedevices connected to a system bus 504 under the control of a programstored in a program ROM of the read-only memory (ROM) 503, and generallycontrols the PC 1.

A font ROM of the ROM 503 stores font data, etc., and a data ROM of theROM 503 stores a variety of data. A random-access memory (RAM) 502functions as a main memory of the CPU 501, and serves as a working areaof the PC 1.

A keyboard controller (KBC) 505 controls inputs from a keyboard (KB) 509and/or a pointing device (not shown), such as a mouse. A video card 506controls display of a monitor 510.

A memory controller (MC) 507 controls access to a hard disk drive (HDD)511 and/or other external storage device (compact disk ROM (CD-ROM),digital versatile disk (DVD), etc.). A network interface (NW I/F) 508controls communication with the network 10.

A USB interface (USB I/F) 512 is identical to the USB read unit 301 ofFIG. 4.

In response to a command from the operator, the PC 1 performs, under thecontrol of the controller (CPU 501) thereof, a write process or anoverwrite process (update process) on a variety of data (document datato be printed produced by the PC 1, the process management information,and information required for the process management information) in theUSB memory loaded in the USB read unit 301 of the USB read unit 301 bythe operator. Furthermore, in response to a command from the operator,the PC 1 performs, under the control of the CPU 501 thereof, a readprocess on a variety of data (document data to be printed produced byanother information processing apparatus such as a client computer, theprocess management information, and information required for processmanagement information) in the USB memory loaded in the USB read unit301 by the operator. Based on the process management information readfrom the USB memory 201, the controller of the PC 1 determines whetherto input the document, reads the print data from the USB memory 201based on the process management information, and displays the read printdata on the preview screen of the monitor of the PC 1.

FIG. 6 is a block diagram of the electrical structure of theelectrophotographic color copying apparatus 20 that performs a printingoperation in accordance with the first embodiment of the presentinvention.

As shown, a CPU 402 connected to a system bus 401 executes a programstored in a ROM 404, a hard disk drive (HDD) 406, or any other storagedevice. A RAM 403 functions as a frame buffer storing scan image data,or print image data, or a working area for system operation.

ROM 404 stores a boot program at startup. Also included in theelectrophotographic color copying apparatus 20 are a HDD I/F 405 as ahard disk interface and a HDD 406 storing system software and scan imagedata.

A scanner section 407 includes a charge-coupled device (CCD) sensor anda halogen lamp. A printer section 408 includes an electrophotographiccolor printer. A video processor 409 is an application-specificintegrated circuit (ASIC) for gamma correction, calibration, color spaceconversion, etc.

A LAN interface (LAN I/F) 410 is connected to a LAN of 100 BASE-T/10BASE-T of Ethernet. Also included are an input/output (I/O) controller411 and an operation unit 412 including a display, such as a liquidcrystal display (LCD), touch panel display and/or mechanical buttons.

A USB interface (USB I/F) 413 corresponds to the USB read unit 301 ofFIG. 4.

In response to a command from the operator, the electrophotographiccolor copying apparatus 20 performs, under the control of the controller(CPU 402) thereof, a write process or an overwrite process (updateprocess) on a variety of data (scan data to be printed produced by theelectrophotographic color copying apparatus 20, the process managementinformation, and information required for the process managementinformation) in the USB memory loaded in the USB read unit 301 by theoperator. Furthermore, in response to a command from the operator, theelectrophotographic color copying apparatus 20 performs, under thecontrol of the CPU 402 thereof, a read process on a variety of data(document data to be printed produced by another information processingapparatus such as a client computer, scan image data produced by theelectrophotographic color copying apparatus 20, the process managementinformation, and information relating to the process managementinformation) in the USB memory loaded in the USB read unit 301 by theoperator. In response to a command from the operator, theelectrophotographic color copying apparatus 20 performs, under thecontrol of the controller thereof, a print process on the print datastored in the USB memory set in the USB read unit. For example, when theelectrophotographic color copying apparatus 20 performs a predeterminedprocess, such as the print process, based on the process managementinformation stored in the USB memory 201, the controller of theelectrophotographic color copying apparatus 20 writes, onto the USBmemory 201, progress data indicating that the process has beencompleted, thereby overwriting and/or updating the process managementinformation in the USB memory 201.

The print operation is discussed next with reference to FIG. 6.

The CPU 402 receives, via a LAN I/F 410 or a USB I/F 413, a job (theprint data transferred from the PC 1 via a network, and the print dataread from the USB memory 201 set in the USB read unit 301 of theelectrophotographic color copying apparatus 20) described inPostScripts® or PDF, and stores the job in a working area of the RAM403. The CPU 402 interprets the PostScript® description, generating araster image, and storing the raster image in a frame buffer of the RAM403. The raster image is then developed onto a sheet on the printersection 408. The print process is repeated in the order of MCYK(magenta, cyan, yellow, black) to form a color image.

Each of the cutter 21, the book binder 22, the folder 23, the packager24, and the collator 25, shown in FIG. 1, is identical in structure tothe electrophotographic color copying apparatus 20 of FIG. 6. However,instead of the scanner section 407, the printer section 408, and thevideo processor 409 in the electrophotographic color copying apparatus20, the cutter 21, the book binder 22, the folder 23, and the packager24, and the collator 25 include a cutting section, a book bindingsection, a folding section, a packaging section, and a collatingsection, respectively.

If the electrophotographic color copying apparatus 20 features thecutting function, the book binding function, the folding function, thepackaging function, and the collating function, the electrophotographiccolor copying apparatus 20 includes a cutting section, a book bindingsection, a folding section, a packaging section, and a collating sectionin addition to the structure shown in FIG. 6.

FIG. 7 is a table listing process step IDs for identifying the processsteps in accordance with the first embodiment of the present invention.

As shown, process step IDs are uniquely assigned to all job items of theprint process (a plurality of process steps contained in the workfloware assigned with respective process step IDs) for process management.FIG. 7 lists job items corresponding to process step IDs 1 through 25.The job items are not limited to those listed here, and a variety of jobitems may be included depending on applications and objectives. Theoperator or an appropriate device such as the PC 1 learns job items ofthe process steps required to produce a final finished product orderedby the client and assigns process step IDs to the respective job items.

The example of the process step IDs of FIG. 7 is described below. Thejob item having the process step ID 1 corresponds to the document input,and is executed when a client or an operator of an order receiver writesdocument input data onto the USB memory 201 on the PC using print orderwriting software. Process step IDs 2-5 are performed by the client orthe operator of the order receiver on the PC (such as the PC 1 of FIG.1), and correspond to a “document checking” step, a “job slip input”step, a “document briefing” step, and a “progress schedule chart making”step, respectively. Process step ID 6, corresponding to a “photographtrimming” step, is performed by the PC 1 or the scanner 3 of FIG. 1 inresponse to a command from the operator. Process step ID 7,corresponding to a “scanning” step, is performed by the scanner 3 ofFIG. 1 in response to a command from the operator. Process step IDs8-11, corresponding to job items “desktop publishing (DTP) editing”step, “preflight” step, “proof outputting” step, and a “page sequencing”step (page layout process, such as nup printing, in which data of aplurality of pages is printed in a single page), respectively, areperformed by the PC 1 in response to a command from the operator.Process step IDs 12-17 correspond to a “RIP” step (a process forexpanding PDL data into bit-map data to be printed onto a sheet), a“computer to plate (CTP) output” step, a “plate setting” step, a“printing” step, a “printout checking” step, and a “print finishing”step, respectively, and are performed by the color LBP 2 or theelectrophotographic color copying apparatus 20 of FIG. 1. The processstep ID 15 includes a step of the LBP 2 or the electrophotographic colorcopying apparatus 20 for performing the print process on the print data.Process step ID 18, corresponding to a “cutting” step, is performed bythe cutter 21. The process step ID 18 includes a cutting process of thecutter 21 of cutting the recording sheets printed by the image formingapparatus. Process step ID 19, corresponding to a “folding” step, isperformed by the folder 23 of FIG. 1, for example. The process step ID19 includes a process of the folder 23 of folding the recording sheetsprinted by the image forming apparatus. Process step ID 20,corresponding to a “collating” step, is performed by the collator 25 ofFIG. 1. The process step ID 20 includes a process of the collator 25 ofcollating (sorting) the recording sheets printed by the image formingapparatus. Process step IDs 21 and 22, corresponding to a “gathering”step and a “binding” step, respectively, and are performed by the bookbinder 22 of FIG. 1. The process step ID 22 includes a binding process(stapling process) of the book binder 22 of binding the sheets printedby the image forming apparatus. Process step ID 23, corresponding to a“three-side trimming” step, is performed by the cutter 21 of FIG. 1. Theprocess step ID 23 includes, as a finishing process, a process of thecutter 21 of cutting three of the four sides of each sheet printed bythe image forming apparatus. If the left side of the sheet is to bestapled, the top, bottom, and right sides of the four sides are cut.Process step IDs 24 and 25, corresponding to a “packaging” step and a“delivery” step, are performed by the packager 24. For example, theprocess step ID 24 includes a process of packaging the fullypost-processed recording sheets in a predetermined package (such aswrapping paper used to deliver the final finished product to theclient). The process step ID 25 includes a process of delivering thepackaged final finished product (the print result fully post-processedas requested by the client) to the client.

The above steps are determined and carried out by the PC 1 and any otherdevices in response to the instructions from the client (as to whatprint conditions are applied to the print process, and post-process, anddelivery date). In response to the instructions from the client, theorder of sequence of the process steps is automatically determined bythe PC 1 and/or any other appropriate device, and/or determined manuallyby the operator. Alternatively, the client himself may determine whatprocess steps are performed in what order of sequence in the workflow.The system may perform the printing operation in the workflow asinstructed by the client.

The order receiver (the operator in the system) produces a print outputsatisfying requirements desired by the client based on the instructionsprovided by the client. A series of process steps for the production ofthe print output is learned and verified based on the requirements. Theseries of process steps are then divided into a plurality of job itemstaking into consideration the devices and the functions of the devicesincluded in the system managed by the operator. The content of the jobitem and where to perform the job item are bound to a process step ID,and are then written onto the USB memory 201.

FIGS. 8-11 illustrate the memory map of the USB memory 201 used in thefirst embodiment of the present invention.

The USB memory 201 is distributed to the client together with the printorder writing software. The client stores the input document data andthe order content onto the USB memory 201 using the print order writingsoftware. The content of the USB memory 201 is shown in FIG. 8.

As shown in FIGS. 8-11, a print process table 600 (also referred to as aprint management table) is created in response to the client'srequirements (editing and printing conditions including the number ofprints, color, the size of recording sheets, layout, book bindingconditions, etc.) and written onto the USB memory 201 using the printorder writing software program.

The print process table 600, holding print step information, listsprocess step numbers 601, process step IDs 602, job status flags 603,and data pointers 604. The process steps 601 are a list of integersstarting with “1”, and indicate the order of a print job sequence.

FIGS. 8-11 list “1” to “10” as the process steps 601, but exemplaryembodiments include sufficient reserved space to accommodate processsteps “1” to “100.”

Print process step job items described corresponding to the process stepID table of FIG. 7 are listed as the process step IDs 602, and areperformed in the order as listed (according to the process step numbers601).

A flag of “done” or “not yet” is listed as the job status flag 603. Thejob item has a “not yet” flag if the job is not yet completed, and has a“done” flag if the job is completed. The process step with the flag of“done” written on the job status flag 603 means that when the deviceexecutes the job item, the controller of the device writes on the USBmemory 201 an indication that the process step of the job item has beencompleted. The process step with the flag of “not yet” written on thejob status flag 603 means that the job item remains to be executed bythe corresponding device, and the controller of the device writes on theUSB memory 201 an indication that the process step of the job item isnot yet completed.

Referring to FIGS. 8-11, the process management table as the workflow iscreated and stored on the USB memory 201 for the system to carry out thedocument input step, the preflight step, the proof outputting step, thepage sequencing step, the printing step, the folding step, the cuttingstep, the binding step, and the delivery step in that scheduled order.FIG. 8 shows information stored in the USB memory 201, indicating thatthe first step (document input) of the plurality of process stepscontained in the workflow is completed and that the second andsubsequent steps (the preflight step through the delivery step) are notcompleted. FIG. 9 shows information stored in the USB memory 201,indicating that the steps down to the second step (the preflight step)are completed while the third and subsequent steps (the proof outputtingstep thereafter) are not yet completed. FIG. 10 shows information storedin the USB memory 201, indicating that the steps down to the third stepare completed. FIG. 11 shows information stored in the USB memory 201,indicating that all process steps are completed.

The data pointer 604 points to print image data (input document data610) which is referenced in the processing of the job item. If noparticular print image data to reference is present, a value “none” iswritten.

FIG. 8 shows the USB memory 201 in which the client writes the inputdocument data 610 on the PC using the print order writing softwareprogram as will be shown in FIG. 12. FIG. 12 is a diagram illustrating ajob process of the process steps stored in the USB memory 201illustrated in FIGS. 8-11.

In accordance with the content of an order, the print order writingsoftware program running on the PC of the client writes the printprocess table 600 and the input document data 610 on the USB memory 201loaded in the PC of the client. The print order writing software setsthe job status flag of the document input step of process step number 1to “done”, and sets the job status flags of the preflight step ofprocess step number 2 and subsequent steps to “not yet”. The referencedata of the preflight step of process step number 2 is the inputdocument data 610.

FIG. 9 illustrates the workflow with the preflight step of process stepnumber 2 completed.

As shown in FIG. 12, the operator performs the preflight job with theUSB memory 201 in the state of FIG. 8 set in the USB slot of the PC 1.Subsequent to the completion of the preflight step, the controller ofthe PC 1 controls the USB read unit 301 thereof and/or the USB memory201 to perform a data update process to update the content of the USBmemory 201 as shown in FIG. 9. A determination of whether any processstep of interest is completed and an updating of the USB memory 201 areperformed as described below. The controller of the PC 1 displays a UIscreen having a button (not shown) thereon on the monitor of the PC 1 insuccession of the completion of the process step, and urges the operatorto select the button on the UI screen. When the operator selects thebutton, the controller of the PC 1 rewrites the information of theprocess step number 2 for the process step of interest from “not yet” to“done”. The controller of the device having the USB memory 201 settherewithin controls the rewrite operation of the process data inresponse to the verification and completion of the process step input bythe operator on the user interface of the device. For example, in thecase of the later printing step, the LBP 2 or the electrophotographiccolor copying apparatus 20 as the printer device detects, in response toa detection signal from a discharge sensor for detecting whether aprinted recording sheet is discharged into a discharge tray, that theprinting process of desired print data has been completed. Thecontroller of the printer device automatically rewrites the data for thejob item from “not yet” to “done” in the USB memory 201 set in the USBread unit 301 of the printer device. In this way, the controller of thedevice automatically detects the end of the job item of interest inresponse to the information representing a process status from a unit,such as a sensor, mounted on the device, and then rewrites the data ofthe USB memory 201. In accordance with the first embodiment of thepresent invention, the devices of FIG. 1 for carrying out the respectiveprocess steps have the USB slots thereof receiving the USB memory 201 ina detachable manner. The controller of each host device rewrites theprocess data of each process step to be performed by host device in theUSB memory 201 set in the USB slot.

In this example, no problem is found in the input data in the preflightjob on the PC 1 (the input data is stored in the USB memory 201 storingthe process management table), and thus no data modification isperformed. The PC 1 displays the user interface screen on the monitorthereof to allow the operator to verify the data. On the user interfacescreen, the operator inputs information that the preflight step has beencompleted, and in particular that the input document has no problem andrequires no modification.

In response, the controller of the PC 1 controls the USB memory 201 setin the USB read unit 301 thereof to rewrite the job status flag of stepnumber 2 in the process management table in the USB memory 201 to“done”, thereby updating the data of the process management table of theUSB memory 201 from the data content of FIG. 8 to the data content ofFIG. 9. The data of the process step number 3, namely, the proofoutputting step, is now the input document data 610.

FIG. 10 shows that the process step number 3 for proofing has beencompleted. The controller updates the data of the process managementdata in the USB memory 201 to let each device and the operator recognizethe progress state of the process step.

Referring to FIG. 12, the operator loads the USB memory 201 having thestate of FIG. 9 into the USB slot of the PC 1. The PC 1 outputs a proofto the color LBP 2. When the PC 1 detects the end of the proofoutputting, the controller (CPU 501) of the PC 1 controls the USB memory201 set in the USB slot thereof to rewrite the data of the USB memory201 to the one shown in FIG. 10.

Referring to FIG. 10, subsequent to the proof outputting, the controller(CPU 501) of the PC 1 causes the USB memory 201 to store, as proofeddata 803 (serving as original print data), data color adjusted by theclient. Furthermore, the controller (CPU 501) of the PC 1 changes thejob status flag of process step number 3 in the process management tablein the USB memory 201 to “done”, and sets, as proofed data 803, data foruse in the process step number 4 for page sequencing.

As shown in FIG. 12, the process step number 4 for page sequencing (suchas a page layout job in nup printing) is performed with the USB memory201 in the state of FIG. 10 loaded in the USB slot of the PC 1. Theprocess step number 3 and the process step number 4 are consecutivelyperformed by the PC 1. If a plurality of process steps are performed onthe same device in this way, the USB memory 201 remains loaded in theUSB slot of the PC 1 without the need for unloading and loading the USBmemory 201. In the process step number 4, the controller controls thedevice to perform the page sequencing (screen editing) using the printdata used in the process step number 3 (image data stored in the USBmemory 201). In response to the end of the process step input inresponse to the operation on the UI of the PC 1, the controller of thePC 1 determines that the page sequencing step has been completed. Thecontroller (CPU 501) of the PC 1 controls the USB memory 201 to rewritethe job status flag of the process step number 4 in the processmanagement table on the USB memory 201 to “done”. The controller (CPU501) of the PC 1 controls the USB memory 201 to store the page sequencedimage data as data for use in the next process step number 5. In thisway, the controller of the PC 1 reads the unedited print data, edits theread print data, and stores the edited print data onto the USB memory201 that has stored the unedited image data. In a later process step,the edited image data is thus available in another device having a USBslot. Both the unedited image data and the edited image data may bestored in the USB memory. Alternatively, once the edited image data iscreated, the unedited image data may be deleted from the USB memory 201,and the edited image data may be stored instead in the USB memory 201.

As shown in FIG. 12, in the process step number 5 for printing, theoperator pulls the USB memory 201 having the state page sequenced in theprocess step number 4 out of the USB slot 301 of the PC 1 and insertsthe USB memory 201 into the USB slot of the electrophotographic colorcopying apparatus 20. In this process step, the USB memory 201 storesinformation that all process step numbers 1 through 4 have beencompleted (with all flags of the process step numbers 1-4 set to“done”). The USB memory 201 also stores the edited image data that ispage sequenced by the PC 1 in the process step number 4. Theelectrophotographic color copying apparatus 20 performs the process stepnumber 5 for printing using the print data page sequenced by the PC 1stored in the USB memory 201 loaded in the USB slot thereof. Thisprocess is controlled by the controller (CPU 402) of the copyingapparatus 20. For example, the operator loads the USB memory 201 in theUSB slot of the copying apparatus 20, and issues a print start command.The operation unit 412 of the copying apparatus 20 receives the printstart command from the operator. In response, the electrophotographiccolor copying apparatus 20 reads the image data processed in the processstep number 4 from the USB memory 201, and controls the printer section408 thereof to print the image data read from the USB memory 201. Asensor (not shown) of the electrophotographic color copying apparatus 20detects that the printing operation is completed. The sensor is adischarge sensor mounted in the vicinity of a discharge port throughwhich the recording sheet bearing an image formed thereon is dischargedinto a discharge tray. In response, the controller (CPU 402) of theelectrophotographic color copying apparatus 20 controls the USB memory201 set in the USB slot thereof to rewrite the job status flag of theprocess step number 5 in the process management table in the USB memory201 to “done”. Alternatively, the controller of the electrophotographiccolor copying apparatus 20 detects the end of the printing operation asdescribed below. An operation unit 412 of the electrophotographic colorcopying apparatus 20 displays an operation screen that urges theoperator to input a command to end the printing operation. When theoperator inputs the print end command on the screen, the controller (CPU402) updates the process information of the USB memory 201. Since thenext process step number 6 for a folding operation requires no printdata, the print data is not stored in the USB memory 201. When onedevice hands the USB memory 201 over to a next device, the next devicemay not need electronic document data (the image data to be printed onthe recording sheet). For example, when the printing operation iscompleted, data required in subsequent process steps is the recordingsheet bearing the print data printed thereon, namely, paper data, ratherthan the electronic data. In the process steps subsequent to theprinting step, the system does not use the electronic data but usespaper data. Therefore, the subsequent process steps do not need theprint data. A storage process of the USB memory 201 is mainly performedto update job process data (process management data). In other words,the updating of the print data is not necessary.

Referring to FIG. 12, the operator pulls, out of the USB slot of theelectrophotographic color copying apparatus 20, the USB memory 201 withthe process step number 5 completed (with all job status flags of theprocess step numbers 1 through 5 set to “done”) and inserts the USBmemory 201 into the USB slot of the folder 23 for the process stepnumber 6 for the folding step. The operator sets a bundle of therecording sheets, printed in the printing step of process step number 5,in a fold tray (not shown) of the folder 23. The operator selects afolding process button (not shown) of the folder 23 (the folding processbutton arranged on an operation section of the folder 23). Upondetection of the selection of the button, a controller (not shown) ofthe folder 23 performs the folding process. The operator inputs an endcommand of the folding process on the operation section of the folder23. Alternatively, the controller of the folder 23 detects the end ofthe folding process in response to detection information from a sensor(not shown) mounted on a tray in which the recording sheets folded bythe folder 23 are stacked. The controller of the folder 23 controls theUSB memory 201 set in the USB slot to update the job status flag for theprocess step number 6 in the process management information to “done”.Since the subsequent step, namely, the cutting step of process stepnumber 7 requires no print data (electronic data), the controller of thefolder 23 is free from the storage process of the print data to the USBmemory 201 as in the preceding process step by the electrophotographiccolor copying apparatus 20. Only the updating of the process step datais performed.

Referring to FIG. 12, the operator pulls, out of the USB slot of thefolder 23, the USB memory 201 with the folding step of process stepnumber 6 completed (with all job status flags of the process stepnumbers 1 through 6 set to “done”) and sets the USB memory 201 in theUSB slot of the cutter 21 for the cutting step of process step number 7.The operator sets a bundle of the printed recording sheets, folded inthe folding step of process step number 6, in an operation tray (notshown) of the cutter 21. The operator selects a cutting process button(not shown) of the cutter 21 (the cutting process button arranged on anoperation section (not shown) of the cutter 21). Upon detection of theselection of the button, a controller (not shown) of the cutter 21performs the cutting process. The operator inputs an end command of thecutting process on the operation section of the cutter 21.Alternatively, the controller of the cutter 21 detects the end of thecutting process in response to detection information from a sensor (notshown) mounted on a tray in which the recording sheets cut by the cutter21 are stacked. The controller of the cutter 21 controls the USB memory201 set in the USB slot to update the job status flag for the processstep number 7 in the process management information to “done”. Since thesubsequent step, namely, the binding step of process step number 8requires no print data, the controller of the cutter 21 is free from thestorage process of the print data to the USB memory 201 as in thepreceding process steps by the electrophotographic color copyingapparatus 20 and the folder 23. The host device updates the process dataof the process step ID of the host device only (namely, rewrites the jobstatus flag of the process step of the host device from “not yet” to“done”).

Referring to FIG. 12, the operator pulls, out of the USB slot of thecutter 21, the USB memory 201 with the cutting step of process stepnumber 7 completed (with all job status flags of the process stepnumbers 1 through 7 set to “done”) and sets the USB memory 201 in theUSB slot of the book binder 22 for the book binding step of process stepnumber 8. The operator sets a bundle of the printed recording sheets,cut in the cutting step of process step number 7, in an operation tray(not shown) of the book binder 22. The operator selects a bindingprocess button (not shown) of the book binder 22. Upon detection of theselection of the button, a controller (not shown) of the book binder 22performs the binding process. When the binding process is completed, thecontroller of the book binder 22 controls the USB memory 201 set in theUSB slot to update the job status flag for the process step number 8 inthe process management information to “done”. Since the subsequent step,namely, the delivery step of process step number 9 requires no printdata, the controller of the book binder 22 is free from the storageprocess of the print data to the USB memory 201 as in the precedingprocess steps by the electrophotographic color copying apparatus 20, thefolder 23, and the cutter 21. The host device updates the process dataof the process step ID for the host device only.

Referring to FIG. 12, the operator pulls, out of the USB slot of thebook binder 22, the USB memory 201 with the binding step of process stepnumber 8 completed (with all job status flags of the process stepnumbers 1 through 8 set to “done”) and sets the USB memory 201 in theUSB slot of the PC 1 for the delivery step of process step number 9. Theoperator selects a delivery button displayed on an operation screen (notshown) of the PC 1. The controller of the PC 1 controls the deliverystep of process step number 9. The delivery step is thus performed. Upondetection of the selection of a delivery complete button, the controller(CPU 501) of the PC 1 updates the job status flag of the process stepnumber 9 of the process management information in the USB memory 201 setin the system to “done”. At this point of time, the process managementtable stored in the USB memory 201 becomes the one shown in FIG. 11. Thecontroller of PC 1 references the process management information in theUSB memory 201 shown in FIG. 11, where a next process step number 10 isunregistered. The controller of the PC 1 thus determines from theprocess management information stored in the USB memory 201 that nofurther process step is required with all job items scheduled in theworkflow completed.

FIG. 11 illustrates the process management information with all printingsteps completed.

All job status flags down to the delivery step of process step number 9are set to “done”, and the data pointer 604 holds page sequenced data904. More specifically, the USB memory 201 stores, at least, the editedimage data produced in the page sequencing step of process step number 5by the PC 1.

In the process steps subsequent to the printing step of process stepnumber 5, the data is not updated and the data pointer 604 remains“none”. With information “none” written in the management table of theUSB memory 201, each device and the operator recognize that the updatingof the electronic data is not required in the corresponding steps.

In accordance with the first embodiment of the present invention, any ofthe devices in the system, the operator of the system, or the clienthimself schedules the workflow in response to the request from theclient. The process management information defines, in the workflow, theprocess steps that are required and the order of sequence. The processmanagement information as the process management table is written ontothe USB memory 201 so that any device having the USB slot thereof in thesystem recognizes the process management information. The controller ofeach device in the system controls the USB memory 201 to write processstep progress information that is recognized by the device having theUSB slot in the system. The process step progress information isprovided in the expression “not yet” or “done” to indicate whether ornot each of the plurality of process steps to be managed in the processmanagement table is completed. In each of the plurality of process stepsto be managed in the process management table, the image data itself(including the unedited image data and/or the edited image data) to beprinted is also stored in the USB memory 201. An easy-to-use, smoothlyoperated, flexible system free from the conventional drawback isprovided by performing, on the devices in the present system, controlprocess and user interface control discussed below.

The arrangements discussed below may be incorporated. For example, theprint data, such as the input document data 610 and the proofed data803, is stored together with the process management information and theprogress information in the USB memory 201. The security of the storeddata is heightened by controlling access to the stored data using apassword set in the USB memory 201.

A device of a type that merely prints out data may be authorized accessto the data within the device's own discretionary power so that complexoperations are avoided while the data are still protected from leakageand alteration.

Access to the USB memory 201 may be authorized as described below. Inresponse to the loading of the USB memory 201 to the USB slot of adevice, the device requests the operator to input authentication datasuch as a password (or an IC card) on the operation section thereof. Thedevice then compares the authentication data input by the operator withauthentication data set beforehand in the USB memory 201 loadedtherewithin. If the two pieces of authentication data match each other,the host device performs the process step while authorizing access tothe USB memory 201 set in the host device. If the two pieces ofauthentication data fail to match each other, the controller inhibitsthe host device from performing the process step while blocking accessto the USB memory 201 set in the host device. Each device performs suchan operation each time the operator sets the USB memory 201 into the USBslot of the host device. With this arrangement, an operator at a lowskill level is provided with sophisticated high-quality printing servicewith the high degree of confidentiality maintained.

FIG. 13 is a flowchart illustrating a first control process of theprinting system of the first embodiment of the present invention. Thefirst control process shown corresponds to the operation based on theprocess information (process management information) stored in the USBmemory 201 and performed by the PC 1, the electrophotographic colorcopying apparatus 20, the cutter 21, the book binder 22, the folder 23,the packager 24 and the collator 25. The steps in the flowchart of FIG.13 are performed by the controllers of the PC 1, the electrophotographiccolor copying apparatus 20, the cutter 21, the book binder 22, thefolder 23, the packager 24 and the collator 25, shown in FIG. 1, inaccordance with the programs stored in the respective HDDs or any otherstorage media. The processes performed for the job items listed in FIG.8 are basically identical to each other. S1001 through S1013 representsteps in the flowchart of FIG. 13.

The controller of a host device determines in step S1001 whether the USBmemory 201 is loaded in the USB slot of the host device. If it isdetermined that no USB memory 201 is loaded, the controller waits onstandby until the USB memory 201 is loaded.

If it is determined in step S1001 that the USB memory 201 is loaded inthe USB slot of the host device, the controller references theinformation stored in the USB memory 201 in step S1002 to determinewhether the USB memory 201 stores a process step in the print processtable 600 thereof matching the process step assigned to host device. Inthe case of the electrophotographic color copying apparatus 20, forexample, the controller of the electrophotographic color copyingapparatus 20 references the content of the USB memory 201 therewithin todetermine whether the process step ID for the printing process (theprinting step of process step number 5 in the case of FIGS. 8-11) iscontained in the process management table of the USB memory 201. In thecase of the book binder 22, for example, the controller of the bookbinder 22 references the content of the USB memory 201 therewithin todetermine whether the process step ID for the binding process (thebinding step of process step number 8 in the case of FIGS. 8-11) iswritten in the process management table of the USB memory 201. Eachdevice corresponding to the respective job item and the process softwarethereof holds the process step ID corresponding to the job item inaccordance with the process ID correspondence table of FIG. 8. For thedevice, the ROM or hard disk holds the process step ID. For thesoftware, the program code thereof holds the process step ID.

If the controller of the device determines in step S1003 that the USBmemory 201 set in the host device does not store a process step in theprint process table 600 thereof matching the process step (such as thepreflight step or the page sequencing step in the case of the PC 1 orthe RIP step or the printing step in the case of the copying apparatus)assigned to host device, an “error process 2” is performed in stepS1012.

In the “error process 2” (step S1012), the controller of the devicehaving the USB slot with the USB memory 201 loaded therein causes thedisplay of the device to display a message, for example, reading “Thedevice is not enabled to perform this job”. For example, the display maybe the operation unit 412 of the electrophotographic color copyingapparatus 20 if the electrophotographic color copying apparatus 20currently performs a process step verification process with the USBmemory 201 set in the USB slot thereof. The display may be the monitor510 of the PC 1 if the PC 1 performs the process step verificationprocess with the USB memory 201 set in the USB slot thereof.Furthermore, in the “error process 2” (step S1012), the controller ofthe device may check the printing step table in the USB memory 201 inthe order of the process step IDs to find the process step having thejob status flag of “not yet”, and presents, through the user interfaceto the operator, a message reading, for example, “next is a foldingstep” to inform the operator of the next job item. FIG. 14 illustrates adisplay example for the “error process 2” and is described below.

The example shown in FIG. 14 is the display of the packager 24, andpresents the error display on the display thereof. The operator sets theUSB memory 201 in the USB slot of the packager 24, and the controller ofthe packager 24 checks the process management table stored in the USBmemory 201, and determines that the process to be performed by thepackager 24 is not found in the workflow that is based on the processmanagement information stored in the USB memory 201 (no in step S1003 ofFIG. 13). The controller of the packager 24 notifies the operator so inthe form of an error notice (step S1012 of FIG. 13). To cause theoperator to recognize the error notice, the display on the screen ofFIG. 14 is thus presented on the operation section of the packager 24.Furthermore, the controller of the packager 24 checks the information of“done” or “not yet” written in the job status flag in the processmanagement table when the controller of the packager 24 references theprocess management table in the USB memory 201. The controller of thepackager 24 thus determines what process steps are completed and whatprocess steps are uncompleted. By checking the process managementinformation of the USB memory 201 set in the USB slot of the packager24, the controller of the packager 24 determines that the workflow (theseries of process steps to be performed by the plurality of devices)contains at least the folding step of the folder 23. By checking the jobstatus flag of the process management table of the USB memory 201, thecontroller of the packager 24 determines that the job status flags ofprocess steps, prior to the folding step by the folder 23, from among aplurality of process steps contained in the workflow managed by the USBmemory 201 are all updated from “not yet” to “done”. Thus, thecontroller of the packager 24 determines that all process steps prior tothe folding step by the folder 23 have been completed. The controller ofthe packager 24 determines that the process step with the job statusflag thereof being “not yet” is present in the process management tableof the USB memory 201, and that the folding step of the folder 23 is theprocess step scheduled to perform immediately subsequent to the processstep with the job status flag thereof being “done”. Based on the processmanagement information of the USB memory 201, the folding step fromamong the plurality of process steps in the workflow is determined as anuncompleted process step and is to be performed next. The controller ofthe packager 24 controls the operation section of the packager 24 toreport to the operator the information to be recognized as shown in theoperation screen of FIG. 14.

A reporting process is performed through the user interface, such as theoperation section, to prevent the operator from using an inappropriatedevice in the workflow, from among the plurality of devices, based on atleast the process management information and the progress information,both of which are stored in the USB memory 201 that also stores theimage data to be printed. The process management information includesprocess management scheduling data that allows each of the devicesreceiving the USB memory 201 to determine what device is used to performwhat process step to produce a final finished product. The progressinformation indicates the progress of each of the plurality of processsteps in the workflow, and allows each of the devices receiving the USBmemory 201 to determine the completed process steps and the uncompletedprocess steps and/or what process step the system has advanced to. Theprogress information here is “not yet” and “done”. For example, theoperator may attempt to start the packager 24 with the USB memory 201 inthe USB slot of the packager 24 even when a packaging step is notrequired in the workflow. As shown in FIG. 14, the controller of thepackager 24 displays a message that the packager 24 does not perform thepackaging step. If the operator commands a device to perform a processstep although the process step of the device is to be performed at alater stage (another process step of another device is to be performedat this point of time), the controller of the device performs areporting process on the user interface unit of the operation section tolet the operator know the situation, based on the process managementinformation and the progress information. Even if the operator performsan erratic operation, the system is prevented from responding to it. Forexample, if a next process step in the workflow to be performed is thefolding process of the folder 23, the controller of the packager 24notifies the operator that the next process step is the folding process.Each of the devices accessible to the removable media storing the imagedata of the system controls the user interface thereof to perform thereporting process to the operator based on the process managementinformation and the process information.

A workflow typically contains a series of process steps to be performedby a plurality of devices to produce a final finished product inresponse to a request from the client. In the reporting control process,only devices related to the workflow are permitted to perform therespective process steps. The operator is inhibited from operatingdevices unrelated to the workflow, and the unrelated devices are thusprevented from operating in the workflow.

If the controller of a host device detects the selection of an “OK”button in response to the error message displayed on the operationscreen thereof (e.g., the display shown in FIG. 14 (step S1012)),processing proceeds from step S1012 to step S1013.

If it is determined in step S1003 that the print process table 600 inthe USB memory 201 holds a process step matching the process step ID ofthe process step of the host device, processing proceeds to step S1004.

The controller of the host device checks the job status flag 603 of aprocess step ID 601 prior to (less than) the process step ID of the hostdevice to check that the job status flags 603 of the process steps IDsprior to the process ID of the host device are all “done”. If it isdetermined in step S1004 that not all job status flags 603 of the priorprocess steps are “done”, processing proceeds to step S1011 to displayan “error process 1”. In the “error process 1”, if the operator commandsa device to perform a process step although the process step of thedevice is to be performed at a later stage (another process step ofanother device is to be performed at this point of time), the controllerof the device performs a reporting process on the user interface unit ofthe operation section inform the operator of the situation, based on theprocess management information and the progress information. Even if theoperator performs an erratic operation, the system is prevented fromresponding to it. The controller of the host device having the USB slotwith the USB memory 201 loaded therewithin causes the display thereof todisplay a message reading, for example, “Another process step must beperformed prior to this job”. The display here is the display of theoperation unit 412 of electrophotographic color copying apparatus 20 ifthe electrophotographic color copying apparatus 20 performs the processstep thereof with the USB memory 201 set in the USB slot thereof, or themonitor 510 of the PC 1 if the PC 1 performs a step verification processwith the USB memory 201 set in the USB slot.

In the “error process 1”, the controller of the host device having theUSB slot with the USB memory 201 set therewithin checks the printingprocess table in the order of the process step IDs, and notifies theoperator of a next job item in response to a process step having a “notyet” job status flag by displaying, for example, a message reading “thefolding step must be performed first” through the user interface of thehost device.

FIG. 15 illustrates an exemplary error display of the cutter 21. Thecontroller of the cutter 21 checks the process management table storedin the USB memory 201. Although the cutter 21 performs the cutting step,the controller of the cutter 21 determines that folder 23 must performfirst the folding step as a prior process step, based on the processmanagement information and the progress information (with the job statusflag of the folding step set to “not yet”). The controller of the cutter21 thus alerts the operator of the cutter 21 to the situation, whilepresenting a display screen on the operation section of the cutter 21.

When the controller of the host device detects the selection of an “OK”button selected on the operation screen of the host device in responseto the error display such as the one shown in FIG. 15, processingproceeds from step S1011 to step S1013.

If it is determined in step S1004 that all job status flags 603 of theprior process steps are “done” (all prior process steps have beencompleted), processing proceeds from step S1004 to step S1005.

In step S1005, the process of each process step is performed. If theprocess step ID is “9”, namely, the preflight job by the PC 1 (thesecond process step in this workflow) as shown in FIGS. 8-11, the PC 1performs the preflight step on the print data in the USB memory 201 oncondition that the controller of the PC 1 verifies that the processsteps (the document input step only) prior to the process step ofprocess step ID 9 in the USB memory 201 set in the USB slot of the PC 1are completed (with all job status flags of the prior process steps setto “done”). For example, the controller of the PC 1 permits the operatorto check the electronic data received from the client, and the PC 1performs the preflight process.

If the process step ID is “10”, namely, the proof outputting (the thirdprocess step in the workflow), the controller of the PC 1 permits thecolor LBP 2 to pint out the print data in the USB memory 201 to performthe proof outputting on condition that the controller of the LBP 2verifies that the process steps (the document input step and thepreflight step) prior to the process step of ID 10 in the processmanagement information of the USB memory 201 have been completed (withall job status flags of the process steps prior to the process step ID10 set to “done”). The proof outputting is thus performed by the LBP 2.The print data, read from the USB memory 201 set in the USB slot of thePC 1, is transmitted to the LBP 2 via a network, and the print data isprinted out on the LBP 2. Alternatively, the operator sets the USBmemory 201, which is pulled out of the USB slot of the PC 1, in the USBslot of the LBP 2. The controller of the LBP 2 controls the LBP 2 toprint out the print data in the USB memory 201 set in the USB slot.Either method is acceptable. Once the LBP 2 prints out the print data,the operator checks the color of the printout.

If the process step ID is “11”, namely, the page sequencing step of thePC 1 (the fourth process step in the workflow), the controller of the PC1 permits the PC 1 to perform a variety of layout processes in responseto a command from the operator on condition that the controller of thePC 1 verifies that the process steps (the document input step, thepreflight step, and the proof outputting step) prior to the process stepof ID 11 in the process management information of the USB memory 201have been completed (with all job status flags of the process stepsprior to the process step ID 11 set to “done”). In the layout process,the page sequencing is performed based on the size of the sheets, thesize of final printout, and the binding method. The page sequencingprocess is thus performed by the PC 1.

If the process step ID is “15”, namely, the printing step of the PC 1(the fifth process step in the workflow), the controller of theelectrophotographic color copying apparatus 20 permits theelectrophotographic color copying apparatus 20 to print the print datain the USB memory 201 on condition that the controller of theelectrophotographic color copying apparatus 20 verifies that the processsteps (the document input step, the preflight step, the proof outputtingstep, and the page sequencing step) prior to the process step of ID 15in the process management information of the USB memory 201 have beencompleted (with all job status flags of the process steps prior to theprocess step ID 15 set to “done”). The printing step is thus performedby the electrophotographic color copying apparatus 20. In the precedingfourth process step, the print data edited by the PC 1 is transmitted tothe electrophotographic color copying apparatus 20 via the network, andthe electrophotographic color copying apparatus 20 prints out the editedprint data under print specifications requested by the client (such asthe number of prints, and single side printing or both side printing).Alternatively, the controller of the PC 1 causes the USB memory 201 setin the USB slot thereof to store the edited print data produced in thefourth process step. The operator then pulls the USB memory 201 out ofthe USB slot of the PC 1, and places the pulled USB memory 201 into theUSB slot of the electrophotographic color copying apparatus 20. Thecontroller of the electrophotographic color copying apparatus 20 readsthe edited print data produced in the fourth process step from the USBmemory 201 set in the USB slot thereof, and causes theelectrophotographic color copying apparatus 20 to print out the editedprint data under the print specifications requested by the client (suchas the number of prints, and single side printing and both sideprinting). Either method is acceptable.

If the process step ID is “19”, namely, the folding step of the folder23 (the sixth process step in the workflow), the controller of thefolder 23 permits the folder 23 to fold the sheets set by the operator(namely a bundle of recording sheets printed by the electrophotographiccolor copying apparatus 20) on condition that the controller of thefolder 23 verifies that the process steps (the document input step, thepreflight step, the proof outputting step, the page sequencing step, andthe printing step) prior to the process step of ID 19 in the processmanagement information of the USB memory 201 have been completed (withall job status flags of the process steps prior to the process step ID19 set to “done”). The folding step is thus performed by the folder 23.

If the process step ID is “18”, namely, the cutting step of the cutter21 (the seventh process step in the workflow), the controller of thecutter 21 permits the cutter 21 to cut the sheets set by the operator(namely a bundle of recording sheets folded by the folder 23) oncondition that the controller of the cutter 21 verifies that the processsteps (the document input step, the preflight step, the proof outputtingstep, the page sequencing step, the printing step, and the folding step)prior to the process step of ID 18 in the process management informationof the USB memory 201 have been completed (with all job status flags ofthe process steps prior to the process step ID 18 set to “done”). Thecutting step is thus performed by the cutter 21.

If the process step ID is “22”, namely, the binding step of the bookbinder 22 (the eighth process step in the workflow), the controller ofthe book binder 22 permits the book binder 22 to bind the sheets set onthe book binder 22 (namely a bundle of recording sheets cut by thecutter 21) on condition that the controller of the book binder 22verifies that the process steps (the document input step, the preflightstep, the proof outputting step, the page sequencing step, the printingstep, the folding step, and cutting step) prior to the process step ofID 22 in the process management information of the USB memory 201 havebeen completed (with all job status flags of the process steps prior tothe process ID 22 set to “done”). The binding step is thus performed bythe book binder 22.

If the process step ID is “25”, namely, the delivery step of the PC 1(the ninth and last process step in the workflow), the controller of thePC 1 permits the PC 1 to perform a delivery process on condition thatthe controller of the PC 1 verifies that the process steps (the documentinput step, the preflight step, the proof outputting step, the pagesequencing step, the printing step, the folding step, the cutting step,and the binding step) prior to the process step of ID 25 in the processmanagement information of the USB memory 201 have been completed (withall job status flags of the process steps prior to the process step ID25 set to “done”). The delivery step is thus performed by the bookbinder 22. In the delivery step, the controller of the PC 1 instructsthe user to deliver the finished product to the client, return the USBmemory 201 to the client, and manage a delivery slip and deliveryhistory.

The electrophotographic color copying apparatus 20 may have the cuttingfunction, the book binding function, the folding function, the packagingfunction, and the collating function. In this case, theelectrophotographic color copying apparatus 20 is optionally connectedto a unit for performing a cutting process to recording sheets printedby the electrophotographic color copying apparatus 20, a book bindingunit, a folding unit, a unit for packaging the recording sheets in aparticular package, and a sorting unit for collating the recordingsheets. Even if the same operation of inserting the USB memory 201 intothe USB slot 302 of the electrophotographic color copying apparatus 20is performed by the operator, the electrophotographic color copyingapparatus 20 performs different process steps in response to the printprocess table 600 stored in the USB memory 201 (the process step ID 602and the job status flag 603). More specifically, the electrophotographiccolor copying apparatus 20 performs the printing step if the processstep ID is 15, performs the folding step if the process step ID is 19,performs the cutting step if the process step ID is 18, and performs thebinding step if the process step ID is 22.

When the process step in step S1005 is completed, processing proceeds tostep S1006 where the controller of the host device determines whether ornot the process step has modified the print data. If it is determinedthat the print data has been modified (yes in step S1006), thecontroller stores the modified print data in the USB memory 201 in stepS1007. Processing proceeds to step S1008, and the data pointer 604 ofthe next process step is set to the head address of the modified data.Processing proceeds to step S1009. If the process step ID 11 iscurrently performed, the PC 1 has read the print data and has edited theread print data. In step S1006, therefore, the controller of the PC 1determines that the print data has been modified (yes in step S1006),stores the edited print data in the USB memory 201 (step S1007), andmodifies address setting to enable to read a next process step (stepS1008).

If it is determined in step S1006 that the print data has not beenmodified, processing proceeds to step S1010. A next data pointer 604 isset to the same address as the current data pointer, and processingproceeds to step S1009. If the print data is not needed in the nextprocess step, no data pointer setting is performed. If the preflightstep of process step ID 9 is currently performed, the controller readsthe input data as the print data from the USB memory 201 to perform thepreflight step in step S1006, and the print data itself is not modified.The controller of the PC 1 determines the print data has not beenmodified (no in step S1006), and maintains the address setting (stepS1010).

In step S1009, the controller updates the job status flag 603 of thecurrent process step to “done” in the process management information ofthe USB memory 201. in step S1013, the controller of the host deviceurges the operator to pull out the USB memory 201. For example, amessage reading “remove the USB memory from this device” is shown on thedisplay of the host device (such as the display of the operation unit412 of the electrophotographic color copying apparatus 20 or the monitor510 of the PC 1). Furthermore, a next process step may be displayedbased on the print process table 600 of the USB memory 201. FIG. 16illustrates such a display.

FIG. 16 illustrates the display of the folder 23 displaying operationguidance. When the operator sets the USB memory 201 in the USB slot ofthe folder 23, the controller of the folder 23 checks the processmanagement table stored in the USB memory 201 in the USB slot of thefolder 23. When the controller of the folder 23 determines that theprocess step to be performed by the folder 23 is present in the workflowbased on the process management information stored in the USB memory201, in other words, when the controller of the folder 23 verifies theprogress information of the workflow indicating that the process steps(the process step ID 1 through the process step ID 5) prior to thefolding process of the folder 23 have been completed, in other words,all job status flags of the process steps prior to the folding step inthe process management information of the USB memory 201 are set to“done”, the display of the folder 23 presents a guidance display. FIG.16 illustrates a guidance message, for example, reading “the foldingstep is completed” to notify the operator that the process step based onthe process management information of the USB memory 201 has beencompleted. The controller of the host device notifies the operator whatprocess step is performed by what device subsequent to the completion ofthe current process step. For example, FIG. 16 shows a message guidancereading “next is a cutting step.” The controller also notifies theoperator what action the operator should take next in the workflow. Forexample, guidance messages reading “remove USB memory from the folder”and “perform cutting step with USB memory and sheets of paper set incutter” are also displayed. With this arrangement, the present inventionallows a smooth printing operation. In the guidance message reportingprocess, the controller of the host device acquires the processmanagement table stored in the USB memory 201 (such as the processmanagement information and the progress information) and operationalstatus information of each device that functions based on the processmanagement information. For example, the operational status informationindicates whether or not a process step has been completed. Based on theacquired information, the controller produces guidance information, andthen provides the operator with the guidance information through anappropriate user interface unit such as an operation section of the hostdevice.

When the controller of the host device detects that the USB memory 201has been removed and the operator's acknowledgement has been confirmed,processing returns to step S1001. The removal of the USB memory 201 maybe detected by a USB memory 201 detection sensor (not shown) in the USBslot. The user's acknowledgement is confirmed when the operator selectsan “OK” button on the operational screen of the host device.

If the next process step is performed on the same device based on theprint process table 600 in the USB memory 201, the controller allows theoperator to determine whether to perform the next process step with theUSB memory 201 remaining loaded. If the operator determines to performthe next process step, processing may return to step S1001 skipping stepS1013 to perform the next process step.

In the above-referenced process step in step S1005, the CPU of theprinter device having the USB memory 201 loaded therewithin performs theprinting step in accordance with the process information of the printprocess table 600 read from the USB memory 201. Alternatively, the CPUof the printer device may display a command to perform the printing stepon the display thereof, and in response, the operator may manuallyperform the printing process.

In the system of the first embodiment of the present invention, aplurality of devices work in cooperation to perform a plurality ofprocess steps in a workflow to produce a final finished product inresponse to the client's request. The workflow, managed in the processmanagement information, is executed by a correct device of the system ata correct timing. A removable medium such as the USB memory 201 storesthe process management information that is scheduling informationindicating what process step is performed by what device at what orderof sequence. The removable medium also stores the progress informationindicating what process steps of a plurality of process steps in theworkflow are completed or and which process steps are uncompleted. Theremovable medium stores not only the process management information andthe progress information but also the print data to be processed in theworkflow. When the operator sets the removable medium in a read unit ofa host device, the controller of the host device reads and examines theprocess management information and the progress information from theremovable medium. The controller of the host device also reads the printdata from the removable medium, thereby performing editing, modifying,printing processes, etc. on the print data.

When the operator inserts the removable medium in the read unit of thehose device, the controller of the host device reads and examines theprocess management information and the progress information from theinserted removable medium. If the controller of the host devicedetermines that the process step of the host device is not present inthe workflow scheduled based on the process management information (ifit is determined that the operator operates an unrelated device in anattempt to perform a process step not needed in the workflow), thecontroller controls the operation section of the host device to notifythe operator that the unrelated device should not be operated in theworkflow. At the same time, the controller inhibits the host device fromoperating. This series of steps, corresponding to the report controlprocess of FIG. 14, is a control process: no in step S1003→“errorprocess 2” (step S1012) in FIG. 13.

As shown in FIG. 14, the workflow based on the process managementinformation shown in FIGS. 8-11 needs no packaging process. If the USBmemory 201 is set in the USB slot of the packager 24 (namely, yes instep S1001 of FIG. 13), the controller of the packager 24 reports to theoperator the information that allows the operator to recognize that thepackaging step of the packager 24 is not performed based on the processmanagement information. The controller of the packager 24 inhibits thepackager 24, which is an unrelated device in the workflow, frompackaging the recording sheets (corresponding to a control process: noin step S1003→step S1012 as shown FIG. 13).

When the operator inserts the removable medium in the read unit of thehost device, the controller of the host device reads the processmanagement information and the progress information from the insertedremovable medium. The controller of the host device may determine thatthe process step of the host device is not to be performed although theprocess step of the host device is set in the process managementinformation. In other words, a process step having a job status flag of“not yet” is present prior to the current process. If the controller ofthe host device determines that the operator attempts to operate thehost device regardless of the presence of an uncompleted process stepthat should have been completed prior to the process step of the hostdevice, the controller causes the operation unit of the host device toreport to the operator the information that the process of anotherdevice in the workflow is to be first performed before the process ofthe host device. The controller of the host device inhibits the hostdevice from operating at this point in time. This control process,namely, yes in step S1003→no in step S1004→“error process 1” in stepS1011, corresponds to the reporting control process of FIG. 15.

When the USB memory 201 is inserted in the USB slot of the cutter 21(namely, yes in step S1001 of FIG. 13), the controller of the cutter 21examines the process management information for each process step andthe progress information (job status flag) stored in the USB memory 201as shown in FIG. 15. Based on the result of the examination, thecontroller of the cutter 21 determines that the cutting step of thecutter 21 is required in the workflow scheduled based on the processmanagement information (yes in step S1003 of FIG. 13). Furthermore, ifthe controller of the cutter 21 determines that the folding step of thefolder 23 remains to be performed prior to the cutting step of thecutter 21 in the workflow (no in step S1004 of FIG. 13), in other words,if the controller of the cutter 21 determines the operator attempts tocause the cutter 21 to operate with the other process step remaining tobe performed earlier, the controller of the cutter 21 reports to theoperator through the operation unit of the cutter 21 the informationthat allows the operator to recognize that the folder 23 must performthe folding step before the cutting operation. The controller of thecutter 21 inhibits the cutter 21 from performing the cutting operationbefore the folder 23 performs the folding step (step S1011).

When the operator inserts the removable medium in the read unit of thehost device, the controller of the host device reads the processmanagement information and the progress information from the insertedremovable medium. The controller of the host device examines the processmanagement information and the progress information. If the controllerof the host device determines that the process step of the host deviceneeds to be performed (in other words, is registered in the workflow)and that other process steps to be performed prior to the process stepof the host device have been completed (with the job status flagsthereof set to “done”), the controller of the host device permits andcauses the host device to perform the process step in the workflow atthis point of time (step S1005). Upon verifying that the operation ofthe host device is completed, the controller of the host device controlsthe operation unit of the host device to notify the operator of thecompletion of the process step. By checking the content of the processmanagement information of the USB memory 201 of the host device, thecontroller of the host device controls the display unit of the hostdevice to notify the operator what process step is to be performed nextafter the completion of this process step in the workflow. Thecontroller of the host device notifies the operator through theoperation unit of the host device what action the operator is to performat what location after the completion of the current process step in theworkflow. The series of steps, namely, yes in step S1003→yes in stepS1004→process step in step S1005 in FIG. 13, corresponds to thereporting control process of FIG. 16.

When the USB memory 201 in the USB slot is inserted in the USB slot ofthe folder 23 (namely, yes in step S1001 of FIG. 13), the controller ofthe folder 23 examines the process management information for eachprocess step and the progress information (job status flag) stored inthe USB memory 201 as shown in FIG. 16. Based on the result of theexamination, the controller of the cutter 21 determines that the foldingstep of the folder 23 is required in the workflow scheduled based on theprocess management information (yes in step S1004 of FIG. 13).Furthermore, if the controller of the folder 23 determines that allprocess steps required in the workflow prior to the folding step of thefolder 23 have been completed (namely, yes in step S1004 of FIG. 13), inother words, determines that the operator operates the folder 23 toperform the folding step with all prior processes in the workflowcompleted, the controller of the folder 23 permits and causes the folder23 to perform the folding step in the workflow based on the processmanagement information at this point of time (step S1005). Upondetecting the completion of the folding step in accordance with thestatus information and job process, the controller of the folder 23controls the operation unit of the folder 23 to notify the operator ofthe completion of the folding step. Based on the process managementinformation of the USB memory 201 set in the host device, the controllercontrols the operation unit of the folder 23 to notify the operator thatthe next process step to perform immediately subsequent to this processstep is a cutting step of the cutter 21. The controller of the folder 23controls the operation unit of the folder 23 to notify the operator ofthe next action the operator should take. Here, the operator must removethe recording sheets folded by the folder 23, and the USB memory 201from the folder 23, and set the recording sheets and the USB memory 201to the cutter 21.

The system of the first embodiment of the present invention thusconstructed provides the advantages described below.

The CPU of the host device with the USB memory 201 loaded thereinnotifies the operator of the next process step (the device performingthe next process step) based on the print process table 600 read fromthe USB memory 201. Even inexperienced operators perform the printingprocess in an error free manner.

The device is controlled to perform the process step based on theprocess management information in the print process table 600 read fromthe USB memory 201. More specifically, the CPU 501 of the PC 1 modifiesthe process step based on the process management information in theprint process table 600 (for example, from the process step number 1 tothe preflight step, from the process step number 2 to the proofoutputting step, or from the process step number 3 to the pagesequencing step). Even an inexperienced operator can successivelyperform printing process steps.

The controller of each host device controls the host device to permit orrestrict and/or perform printing process steps (including not only anactual printing step, but also post-print steps such as a cutting stepfor cutting printed recording sheets, a folding step, and a bindingstep, and pre-print steps performed prior to the actual printingincluding a preflight step and a page sequencing step) based on theinformation of the print process table 600 read from the USB memory 201.The CPU of each device enables the device to perform a respectiveprocess step as long as the USB memory 201 is loaded in a correctdevice, and as long as the CPU determines a process step to be performedas a correct process step.

If the CPU of the device having the USB memory 201 loaded therewithindetermines that the host device must not perform the process step on theprint data stored in the USB memory 201 based on the process step tableread from the USB memory 201, the CPU notifies the operator of a deviceto be used next by displaying the display of the host device.

Even an inexperienced operator can easily determine a next device.

Second Embodiment

In accordance with the first embodiment of the present invention, a nextprocess step is not executed unless the next process step is set as anext job item in the print process table 600 of the USB memory 201.Alternatively, a notice may be displayed on the display of a device ifthe next process step is not registered as a next job item. In a secondembodiment, a device that manages the entire system is notified of thenext process step unregistered in the print process table 600 but thenext process step itself is performed by the host device.

FIG. 17 is a block diagram illustrating a system incorporating a printprocessing apparatus, such as an information processing apparatus, animage forming apparatus, or a post-process apparatus in accordance withthe second embodiment of the present invention. Elements identical tothose described with reference to FIG. 1 are designated with the samereference numerals and are not described in detail here as they aredescribed above.

As shown, a process control manager 11 manages all process steps in theprinting system.

In accordance with the second embodiment of the present invention, thenetwork 10 is connected to each of the electrophotographic color copyingapparatus 20, the cutter 21, the book binder 22, the folder 23, thepackager 24, and the collator 25.

FIG. 18 is a flowchart of a second control process of the printingsystem of the second embodiment of the present invention. The flowchartof FIG. 18 represents an operation carried out by theelectrophotographic color copying apparatus 20, the cutter 21, the bookbinder 22, the folder 23, the packager 24, and the collator 25 inaccordance with the process management information in the USB memory201. The steps in the flowchart of FIG. 18 are performed by thecontrollers of the PC 1, the electrophotographic color copying apparatus20, the cutter 21, the book binder 22, the folder 23, the packager 24and the collator 25 shown in FIG. 1 in accordance with the programsstored in the respective HDDs or any other storage media. The processesperformed for the job items listed in FIG. 8 are basically identical toeach other. S1001-S1013 and S1801-S1802 represent step numbers, andsteps identical to those described in FIG. 13 (S1001-S1013) aredesignated with the same step numbers and are not described in detailhere because they are described above.

If it is determined in step S1004 that not all process steps prior to apreceding step have been completed, the host device performs an “errorprocess 1” in step S1011. In step S1801, the host device notifies theprocess control manager 11 of information concerning a current job itemand a job item to be processed next, and waits on standby for a replyfrom the process control manager 11.

The process control manager 11 compares the current job item with thejob item to be processed next. If the current job item cannot beperformed first (for example, in such a case as where a delivery step isattempted prior to a binding step), the process control manager 11notifies the reporting device of an operation inexcutable status(error). If the current job item can be performed first (for example, insuch a case where a preflight step is attempted prior to a job slipinput), the process control manager 11 notifies the reporting device ofan operation executable status.

Upon receiving the reply from the process control manager 11, the devicedetermines in step S1802 whether or not the reply represents theoperation executable status. If it is determined that the replyrepresents the operation inexcutable status, processing proceeds to stepS1013.

If it is determined that the reply represents the operation executablestatus, processing proceeds to step S1005.

Even if the operator makes a mistake in the order of process sequence(or a subsequent process step is attempted because of a busy device),that process step is permitted for production efficiency if possible.

The print data may be stored and managed in a file server (not shown)over the network 10 with a password, and the USB memory 201 stores onlythe print process table 600 (with the data pointer 604 holdinginformation indicating the location of the print process table 600 inthe filter server).

Third Embodiment

In accordance with the first embodiment of the present invention, theUSB memory 201 and the print order writing software are distributed to aclient, and the client causes the USB memory 201 to store input data.The USB memory 201 is then received from the client. In a thirdembodiment, a device receives, via the Internet, input data and ordercontent transmitted by the client. The device that has received theinput data and the order content writes the input data and the ordercontent to the USB memory 201. The third embodiment is described below.

FIG. 19 is a block diagram illustrating a system incorporating a printprocessing apparatus, such as an information processing apparatus, animage forming apparatus, or a post-process apparatus in accordance withthe third embodiment of the present invention. Elements identical tothose described with reference to FIG. 17 are designated with the samereference numerals and are not described in detail here as they aredescribed above.

An order and document input manager 12 receives a job via the Internet.The order and document input manager 12, as an intermediary forelectronic commerce (EC), is a computer for ordering placing and orderreceiving. If viewed from the user side, the order and document inputmanager 12 is like an electronic online store on a web page over theInternet. The order and document input manager 12 performs userauthentication, and a user sends electronic data together with a desiredfile at a desired setting to the order and document input manager 12 forordering a job.

Upon receiving a job, the order and document input manager 12 instructsthe user to load the USB memory 201 into the order and document inputmanager 12. With the USB memory 201 loaded, the order and document inputmanager 12 stores the input document data and the order content in theUSB memory 201. The USB memory 201 has the content as shown in FIG. 8.

The order and document input manager 12 stores the input document dataand the order content in the USB memory 201 without a password. However,the input document data ordered and held in the order and document inputmanager 12 is protected with a password, etc., and unauthorized accessis thus prevented.

Even when the ordering and document inputting are performed in EC, theprinting process is quickly performed using the USB memory 201. Thisarrangement responds to ordering from a remote place.

In the print process table 600 shown in FIGS. 8-11, the process step IDcorresponding to the respective process step number 601 is simplywritten. A column for designating the device may be added to the printprocess table 600. The client or the process manager may designate adevice or the type of the device for performing the job so that anydevice different from that device or any device of type other than thattype is disabled to perform the process or so that a notice about thedevice or the type of the device is displayed.

In the color printing, in particular, the type of a printer or the modelof a printer may be identified to maintain consistency in color.

To manage the devices designated by the process control manager 11 andto prevent a plurality of operators from waiting for a single busydevice, each device inquires from the process control manager 11regarding the device expected to perform the next process step when thecurrent process step has been completed. The print process table 600 isthen updated so that a device having a smaller number of waiting jobs isdesignated. In this way, devices in use are evenly and efficiently used.

The print process table 600 and the print data are stored in the USBmemory 201 in each of the preceding embodiments of the presentinvention. The removable medium is not limited to the USB memory 201.Any removable medium is perfectly acceptable as long as the removablemedium is a rewritable, detachably mounted, and a portable type storagemedium (storage device), and permits a particular device only or aparticular person only to access thereto with an authenticationfunction. For example, the removable medium may be a magneto-opticaldisk, a compact disk rewriteable (CD-RW), digital versatile diskrewriteable (DVD-RW), or any of a variety of memory cards.

The preferred embodiments have been discussed. The present invention maybe embodied in the form of a system, an apparatus, a method, a computerprogram, or a storage medium. The present invention is applicable to asystem containing a plurality of apparatuses, or a single apparatus.

A combination of the preceding embodiments in part or in whole fallswithin the scope of the present invention.

In accordance with the previously discussed embodiments of the presentinvention, the print data and the process management information arestored in a portable storage medium such as a USB flash memory. Theportable storage medium is loaded in a device that performs at least oneof process steps (including a comprehensive outputting step, a proofoutputting step, a preflight check step, a RIP step, a page sequencingstep, a printing step, a cutting step, a collating step, and a bookbinding step). The process management information is read from theloaded portable storage medium. Based on the read process managementinformation, a process step may be displayed on a display, such as anLCD. A process step failing to match the process management informationis limited (for example, printing is inhibited). The confidentiality ofthe print data is protected and the process step management is thusperformed.

The CPU of each device limits the process of a next process step if thenext process step is not to be performed based on the print step tableread from the USB memory that stores data of an order sheet and theprocess management information. Even an operator at a low skill levelcan perform a reliable printing process. The security of the data isheightened using the authentication function of the memory device. Thisarrangement prevents leakage of the print data, useless printing, anderroneous operation. Even a low-skilled operator can provide asophisticated printing service.

Printout improved in finish accuracy and color consistency in colorprinting is provided by designating the device on a per order sheetbasis.

In each of the previously described embodiments of the presentinvention, the system includes the computer 1, the scanner 3, the imageforming apparatuses 2 and 20, and a plurality of sheet processingdevices 21-25 for processing the sheets bearing images. In addition tothese devices, other devices, such as a digital camera and a notebookcomputer may be included in the system. The present invention isapplicable to a system that contains at least several of these devices.

A workflow is scheduled in a manner such that a digital camera, ifincluded in the system, photographs a subject, the PC 1 edits image dataof the image of the subject, and the LBP 2 prints the edited image data.The system now performs the workflow. In the same manner as thepreviously described embodiments, the above control process is performedusing the removable medium. For example, the process management table,scheduled to have process step numbers with the image pickup process ofthe digital camera assigned with a first process step, the editing stepof the PC 1 assigned with a second process step, and the printing stepof the LBP 2 assigned with a third process step, is produced and storedin the removable medium. Each time any of the image pickup step of thedigital camera, the editing step of the PC 1, and the printing step ofthe LBP 2 is performed, the job status flag of each process step in theprocess management table of the removable medium is updated.

Based on at least the process management information and in addition,the progress information stored in the removable medium, the controllerof the electrophotographic color copying apparatus 20 now determinesthat the operator attempts to operate the electrophotographic colorcopying apparatus 20 in the workflow, namely, a device other than thedigital camera, the PC 1 and the LBP 2, from among a plurality ofdevices in the system. The controller of the electrophotographic colorcopying apparatus 20 inhibits the electrophotographic color copyingapparatus 20 from performing a copying step. For example, the controllerof the electrophotographic color copying apparatus 20 presents errorguidance information such as the information shown in FIG. 14 anddisplayed on the operation screen (for example, a message reading“copying step is not performed by the copying apparatus in this job”) onthe operation unit of the electrophotographic color copying apparatus20. This control process is performed in a series of steps: no in stepS1003→step S1012 in FIG. 13.

Based on the process management information and the progress information(in particular, the content of the job status flag indicated by theprogress information) in the workflow stored in the removable medium,the controller of the LBP 2 now determines that the operator operatesthe LBP 2 in an attempt to perform the printing step of the data of thedigital camera with the editing step of the PC 1 uncompleted (with thejob status flag of the editing step of the PC 1 set to “not yet”) andwith the image pickup step of the digital camera completed (with the jobstatus flag of the image pickup step of the digital camera set to“done”). The printing step of the LBP 2 is contained in the workflow.Since the editing step of the PC 1 is uncompleted, the controller of theLBP 2 inhibits the LBP 2 from performing the printing step at this pointin time. For example, the controller of the LBP 2 presents errorguidance information such as the information displayed on the operationscreen of FIG. 15 (for example, a message reading “in this job, theediting step of the PC 1 must be performed prior to the printing step ofthe LBP 2, and perform the editing step of the pickup image with the USBmemory storing the image data from the digital camera set”) on theoperation unit of the LBP 2. This control process corresponds to aseries of steps: yes in step S1003→no in step S1004→“error process 1” instep S1011 in FIG. 13.

The operator now attempts to edit the image data picked up in the imagepickup step by operating the PC 1 after the image pickup step of thedigital camera. Based on the process management information and theprogress information in the workflow stored in the removable medium, thecontroller of the PC 1 verifies that the workflow is performed using theappropriate device in the appropriate order of sequence. The controllerof the PC 1 thus permits the PC 1 to perform the editing step on theimage data in the USB memory 201. In response to the completion of theediting step, the controller of the PC 1 reports to the operatorguidance information, such as that displayed on the operational screenof FIG. 16, through the operation unit of the PC 1. The guidanceinformation may include information indicating the completion of theediting step; (for example: “The editing step has been completed. Thenext step is a printing step of the LBP 2. Perform the printing stepwith the USB memory 201 set in the USB memory 201”); information forcausing the operator to recognize what process step is performed in thenext device; and information for causing the operator to recognize whataction the operator must take subsequent to the editing step. Thiscontrol process corresponds to: yes in step S1003→yes in stepS1004→process step in step S1005.

In accordance with each of the previously described embodiments (thefirst embodiment, in particular), the system and the devices arearranged and perform the control process as generally described below.

For example, the system includes a plurality of devices including afirst device that performs a first process based on information storedin a portable storage unit that stores a plurality of pieces of data,and a second device that performs a second process based on theinformation stored in the portable storage unit. The storage unit is,for example, a removable medium such as the USB memory, amagneto-optical disk, a CD-RW, or a DVD-RW. The information stored inthe portable storage unit includes at least one of the processmanagement information relating to the workflow responding to a requestfrom the client, and the progress information relating to the progressof each process step, and the image data to be printed. The firstdevice, for example, includes at least one of the computer 1, thescanner 3, the image forming apparatuses 2 and 20, the sheet processingapparatuses 21-25 for processing the sheets bearing images, the digitalcamera, and the notebook computer. The second device, for example, isany one of the above devices except that serving as the first device. Inthe system, the controller (for example, CPU of one of the plurality ofdevices in the system) controls a workflow including a process to makethe second device execute the second process after (subsequent to) thefirst process has been executed (performed) by the first device. In thesystem, the controller (for example, CPU of one of the plurality ofdevices in the system) controls a user interface unit so as to report(notify or guide or inform) to the operator (worker) of the system,based on the information stored in the portable storage unit,information relating to actions to be carried out by the operator in aseries of work period (a job period) including a period from the timingof the end of the first process performed by the first device to thetiming of the start of the second process performed by the seconddevice, when the controller causes the second device to execute thesecond process after (subsequent to) the first process is executed(performed) by the first device. The job period (series of work period)is, for example, a series of work period including a period from the end(completion) of the folding process by the folder 23 to the start of thecutting process by the cutter 21 as shown in FIG. 16. The informationrelating to actions to be carried out by the operator is the guidanceinformation reported on the operation screen of FIG. 16. The informationstored in the portable storage unit is the process managementinformation and the progress information, stored in the removablemedium. The user interface unit is an operation section of aliquid-crystal operation panel (not shown) of the folder 23 shown inFIG. 16.

The system includes a plurality of devices including at least one of afirst device (for example, at least one of the computer 1, the scanner3, the image forming apparatuses 2 and 20, the sheet processingapparatuses 21-25 for processing the sheets bearing images, the digitalcamera, and the notebook computer) that performs a first process, asecond device (for example, any of the devices listed above except thefirst device) that performs a second process, and a third device (forexample, any of the devices listed above except the devices serving asthe first and second devices) that performs a third process. In thesystem, the controller (for example, the CPU of one of the plurality ofdevices in the system), for example, confirms information (the processmanagement information and the progress information in a workflow)relating to a workflow in which the second process is performed by thesecond device after the first process is performed by the first device,based on information stored in the storage medium. In the case of theabove-mentioned situation, the controller, for example, permits anexecution of the second process by the second device subsequent to thefirst process performed by the first device in the workflow, based onresult confirmation of the information relating to the workflow of thestorage medium (in a control process: yes in step S1004→process step inS1005 in FIG. 13). And the controller, for example, inhibits anexecution of the second process by the second device prior to the firstprocess being performed by the first device in the workflow based on aresult confirmation of the information relating to the workflow of thestorage medium (in a control process: no in step S1004→“error process 1”in step S1011 in FIG. 13).

Moreover, in the above-mentioned situation, the controller, for example,inhibits an execution of the third process by the third device in theworkflow, based on a result confirmation of the information relating tothe workflow of the storage medium (in a control process: no in stepS1003→“error process 2” in step S1012).

The above-referenced control processes are possible if any of theplurality of devices in the system is used.

The user interface unit is used as a display unit displaying a varietyof information to the operator. An audio unit for outputting audio maybe used. Any type of user interface unit may be used as long as the userinterface unit reliably notifies the operator of information intendedfor the operator.

The above control processes are executed in the system of theapparatuses. Even if a mix of various types of devices having a varietyof structures is contained in the system, an operational flexibility isassured. The embodiments of the present invention are applicable todevices and systems in any configuration, and still provide advantagesof the present invention.

Referring to a memory map of FIG. 20, the structure of a data processingprogram read by the printing system of the present invention isdiscussed next.

FIG. 20 illustrates the memory map of a storage medium storing a varietyof data processing programs read by the printing system of theembodiments of the present invention.

Information managing a group of programs stored in the storage medium,such as version information and producer's information, although notshown, may also be stored. Furthermore, information dependent on aprogram reading side OS, such as an icon identifying a program, may alsobe stored.

Data attached to each program is also managed in directories. If aprogram for installing a variety of programs onto a computer and aprogram to be installed onto the computer are compressed, adecompression program may also be stored.

The functions illustrated in FIG. 13 or 18 may be executed by a hostcomputer under the control of a program installed from the outside intothe host computer. A group of pieces of information including theprogram is supplied to an output device from a storage medium, such as aCD-ROM, a flash memory, a floppy disk, or via a network from an outsidestorage medium. Such an arrangement falls within the scope of thepresent invention.

A storage medium storing program code of the software program performingthe functions of the present invention is installed in a system or anapparatus, and a computer (CPU or micro-processing unit (MPU)) of thesystem or the apparatus reads and executes the program code stored inthe storage medium.

The program code read from the storage medium perform the functions ofthe present invention.

The form of the programs is not important as long as the programperforms the function thereof. The program may be object code, a programperformed by an interpreter, or script data supplied to the OS.

Available as storage media for supplying the program code are a flexibledisk, a hard disk, an optical disk, a magneto-optical disk, a CD-ROM, aCD-R, a CD-RW, a magnetic tape, a nonvolatile memory card, ROM, DVD andthe like.

A client computer is connected to the Internet and accessing a home pageusing a browser of the client computer. The program of the embodimentsof the present invention, or a file containing compressed program withan automatic install function may be downloaded to a recording mediumsuch as a hard disk. Program code constituting the program of theembodiments of the present invention is divided into a plurality offiles, and the files may be downloaded from respective different homepages. A world wide web (WWW) server and a file transfer protocol (FTP)server for downloading, to a plurality users, the program files forcausing the computer to perform the processes of the functions of theembodiments of the present invention also fall within the scope of thepresent invention.

A CD-ROM storing the computer programs of the embodiments of the presentinvention in an encrypted form thereof is distributed to users. Keyinformation for decrypting the computer program is downloaded from ahome page via the Internet to a user who satisfies a predeterminedcondition. The user decrypts the computer program with the keyinformation and installs the computer program onto the computer.

By executing the program code ready by the computer, the functions ofthe embodiments are performed. Furthermore, the operating system (OS)running on the computer performs partly or entirely a process inresponse to the instructions of the program code, and with the processperformed, the functions of the above-described embodiments areperformed.

The program code from the storage medium is read into a memoryincorporated in a feature expansion board in the computer or in afeature expansion unit connected to the computer. The CPU mounted on thefeature expansion board or the feature expansion unit performs partly orentirely the actual process in response to the instructions from theprogram code. The functions of the above embodiments are executedthrough the process. Such program code falls within the scope of thepresent invention.

The present invention is applicable to a system including a plurality ofapparatuses, or a single apparatus. The present invention is achieved bysupplying the computer program to the system or the apparatus. Thesystem or the apparatus provides the advantages of the present inventionby reading the software program of the present invention from a storagemedium.

While the present invention has been described with reference to whatare presently considered to be the preferred embodiments, it is to beunderstood that the invention is not limited to the disclosedembodiments. On the contrary, the invention is intended to cover variousmodifications and equivalent arrangements included within the spirit andscope of the appended claims. The scope of the following claims is to beaccorded the broadest interpretation so as to encompass all suchmodifications and equivalent structures and functions.

1. A system for processing a job that a predetermined processing andanother predetermined processing are performed sequentially, thepredetermined processing being performed by a predetermined device, theother predetermined processing being performed by another predetermineddevice separated from the predetermined device, wherein thepredetermined device and the other predetermined device can detachablyload a portable recording medium, the other predetermined devicecomprising: a determining unit configured to determine, based oninformation related to progress about the job recorded on the portablerecording medium by the predetermined device, if the predeterminedprocessing about the job by the predetermined device has been done; anda control unit configured to control the other predetermined device toperform the other predetermined processing about the job, if it isdetermined that the predetermined processing about the job by thepredetermined device has been done, wherein the control unit controlsthe other predetermined device not to perform the other predeterminedprocessing about the job, if it is not determined that the predeterminedprocessing about the job by the predetermined device has been done. 2.The system according to claim 1, wherein the predetermined devicecomprises a unit configured to update the information related toprogress about the job recorded on the portable recording medium, if thepredetermined processing about the job by the predetermined device hasbeen done.
 3. The system according to claim 1, wherein the systemfurther comprises a unit configured to notify an operator of guidanceinformation based on the information related to progress about the jobrecorded on the portable recording medium.
 4. The system according toclaim 1, wherein the system further comprises a unit configured tocontrol so that the predetermined processing or the other predeterminedprocessing is not performed by a different device irrelevant to the job,based on the information related to progress about the job recorded onthe portable recording medium.
 5. The system according to claim 1,wherein the system further comprises a unit configured to distinguish anoperator based on the information related to progress about the jobrecorded on the portable recording medium.
 6. The system according toclaim 1, wherein the system further comprises a unit configured torestrict user operation in the predetermined device or the otherpredetermined device based on the information related to progress aboutthe job recorded on the portable recording medium.
 7. The systemaccording to claim 1, wherein the portable recording medium can recordat least print data.
 8. The system according to claim 7, wherein theportable recording medium is a removable medium as a storage unitconfigured to store electronic data.
 9. The system according to claim 1,wherein the predetermined device is at least one of a computer, ascanner, a printer, an apparatus utilized in postpress a digital camera,and a notebook computer.
 10. A system for processing a job that apredetermined processing and another predetermined processing areperformed sequentially, the predetermined processing being performed bya printing device, the other predetermined processing being performed byanother predetermined device separated from the printing device, theother predetermined device being utilized in prepress or postpress,wherein the predetermined device and the other predetermined device candetachably load a portable recording medium, the other predetermineddevice comprising: a determining unit configured to determine, based oninformation related to progress about the job recorded on the portablerecording medium by the pinting device, if the predetermined processingabout the job by the printing device has been done; and a control unitconfigured to control the other predetermined device to perform theother predetermined processing about the job, if it is determined thatthe predetermined processing about the job by the printing device hasbeen done, wherein the control unit controls the other predetermineddevice not to perform the other predetermined processing about the job,if it is not determined that the predetermined processing about the jobby the printing device has been done.
 11. A system for processing a jobthat a predetermined processing and another predetermined processing areperformed sequentially, the predetermined processing being performed bya predetermined device, the other predetermined processing beingperformed by another predetermined device separated from thepredetermined device, wherein the predetermined device and the otherpredetermined device can detachably load a portable recording medium,the other predetermined device comprising: a determining unit configuredto determine, based on information related to progress about the jobrecorded on the portable recording medium by the predetermined device,if the predetermined processing about the job by the predetermineddevice is not yet done; and a control unit configured to cause anotification unit to output warning information so that the otherpredetermined processing is not performed by the other predetermineddevice if it is determined that the predetermined processing about thejob by the predetermined device is not yet done.
 12. The systemaccording to claim 11, wherein the portable recording medium can recordat least print data.
 13. The system according to claim 12, wherein theportable recording medium is a removable medium as a storage unitconfigured to store electronic data.
 14. A method for processing a jobthat a predetermined processing and another predetermined processing areperformed sequentially, the predetermined processing being performed bya predetermined device, the other predetermined processing beingperformed by another predetermined device separated from thepredetermined device, wherein the predetermined device and the otherpredetermined device can detachably load a portable recording medium,the method comprising: determining, based on information related toprogress about the job recorded on the portable recording medium by thepredetermined device, if the predetermined processing about the job bythe predetermined device has been done; controlling the otherpredetermined device to perform the other predetermined processing aboutthe job, if it is determined that the predetermined processing about thejob by the predetermined device has been done; and controlling the otherpredetermined device not to perform the other predetermined processingabout the job, if it is not determined that the predetermined processingabout the job by the predetermined device has been done.
 15. Acomputer-readable storage medium storing a program for causing acomputer to execute a method defined in claim
 14. 16. A method forprocessing a job that a predetermined processing and anotherpredetermined processing are performed sequentially, the predeterminedprocessing being performed by a printing device, the other predeterminedprocessing being performed by another predetermined device separatedfrom the printing device, the other predetermined device being utilizedin prepress or postpress, wherein the predetermined device and the otherpredetermined device can detachably load a portable recording medium,the method comprising: determining, based on information related toprogress about the job recorded on the portable recording medium by theprinting device, if the predetermined processing about the job by theprinting device has been done; controlling the other predetermineddevice to perform the other predetermined processing about the job, ifit is determined that the predetermined processing about the job by theprinting device has been done; and controlling the other predetermineddevice not to perform the other predetermined processing about the job,if it is not determined that the predetermined processing about the jobby the printing device has been done.
 17. A computer-readable storagemedium storing a program for causing a computer to execute a methoddefined in claim
 16. 18. A method for processing a job that apredetermined processing and another predetermined processing areperformed sequentially, the predetermined processing being performed bya predetermined device, the other predetermined processing beingperformed by another predetermined device separated from thepredetermined device, wherein the predetermined device and the otherpredetermined device can detachably load a portable recording medium,the method comprising: determining, based on information related toprogress about the job recorded on the portable recording medium by thepredetermined device, if the predetermined processing about the job bythe predetermined device is not yet done; and causing a notificationunit to output warning information so that the other predeterminedprocessing is not performed by the other predetermined device if it isdetermined that the predetermined processing about the job by thepredetermined device is not yet done.
 19. A computer-readable storagemedium storing a program for causing a computer to execute a methoddefined in claim
 18. 20. A device configured to perform processing abouta job that a predetermined processing and another predeterminedprocessing are performed sequentially, the predetermined processingbeing performed by another predetermined device separated from thedevice, wherein the device and the other predetermined device candetachably load a portable recording medium, the device comprising: aprocessing unit configured to perform the other predetermined processingabout the job; a determining unit configured to determine, based oninformation related to progress about the job recorded on the portablerecording medium by the other predetermined device has been done; and acontrol unit configured to control so that the other predeterminedprocessing about the job by the processing unit is performed, if it isdetermined that the predetermined processing about the job by the otherpredetermined device has been done, wherein the control unit controls sothat the other predetermined processing about the job by the processingunit is not performed if it is determined that the predeterminedprocessing about the job by the other predetermined device is not yetdone.
 21. A device configured to perform processing about a job that apredetermined processing and another predetermined processing areperformed sequentially, the predetermined processing being performed byanother predetermined device separated from the device, the otherpredetermined processing being processing about printing processes orpostpress, the device and the other predetermined device can detachablyload a portable recording medium, the device comprising: a processingunit configured to perform the other predetermined processing about thejob; and a control unit configured to control, based on informationrelated to process flow about the job recorded on the portable recordingmedium by the other predetermined device, the processing unit to performthe other predetermined processing about the job after performing thepredetermined processing about the job by the other predetermineddevice.
 22. A device configured to perform processing about a job that apredetermined processing and another predetermined processing areperformed sequentially, the predetermined processing being performed byanother predetermined device separated from the device the device andother predetermined device can detachably load a portable recordingmedium, the device comprising: a processing unit configured to performthe other predetermined processing about the job; and a determining unitconfigured to determine, based on information related to progress aboutthe job recorded on the portable recording medium by the otherpredetermined device, if the predetermined processing about the job bythe predetermined device has been done; and a control unit configured tocause a notification unit to output warning information so that theother predetermined processing about the job by the processing unit isnot performed if it is determined that the predetermined processingabout the job by the other predetermined device is not yet done.